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Philips Lumileds

IESNA LM-80 Test Report

Philips Lumileds

IESNA LM-80 Test Report

1. Applicable LUXEON® Series part number(s)

This IESNA LM-80 Test Report applies to the following LUXEON part numbers:

Product Family Part Number Nominal CCT

LUXEON 3535 2D MXC8-PW27 2700K







2. L70

Extrapolations per IESNA TM-21-11

The table below shows the L70 extrapolations for the product which was tested according to LM-80-08.

If = 100mA If = 150mA

Ts = 105°C > 42,000 39,000

Ts = 55°C > 42,000 > 42,000

= Limited by TM-21 6x rule

The table below summarizes the relationship between the Ts temperatures of LUXEON 3535 2D and the T s temperature of theproduct which was tested:

Tested product If = 100mA If = 150mA

Ts = 105°C Ts = 100°C Ts = 98°C

Ts = 55°C Ts = 50°C Ts = 48°C

Stunning Lighting Technology co., LTDStunning Lighting Technology co., LTD

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3. Number of LED light sources tested

25 units per test / 25 units reported.

4. Description of LED light sources tested

LUXEON 3535: MXM8-PW30 (nominal CCT 3000K)

5. Dates Tests Started

All DATA SETs: 05-17-2012.

6. Date Report First Issued

All DATA SETs: first reported on 03-15-2013.

7. Package Pictures

Figure 1. Picture of LUXEON 3535 2D.

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8. Mechanical Drawing

For detailed mechanical drawings, please see individual product data sheets.

Figure 2: Mechanical Drawing for LUXEON 3535 2D. All dimensions are in millimeters.

9. Ts Measurement Point

Figure 3: Preferred T s measurement point for LUXEON 3535 2D.

For further information on measuring the in-situ Ts , please see Philips Lumileds Application Brief AB203, which is available onlineat www.philipslumileds.com.

10. Description of auxiliary equipment

LUXEON LED devices are soldered to reliability stress boards that can accommodate up to 16 devices. LUXEON LEDs areconnected in series strings of up to 2 devices and driven by a constant current source for each series string.

Reliability stress boards are mounted in a chamber with convection cooling. The chamber temperature is controlled based on thetemperature of a control Ts point, which is located at the center of the test board. The temperature stability of the chamber is ±

2°C.

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The reliability stress board is periodically removed from the thermal chamber, allowed to cool to room temperature, and thentested.

The tester consists of a computer-controlled x-y table, integrating sphere, programmable current-source meter, and relayswitching-matrix. Each LUXEON LED is positioned underneath the integrating sphere and driven with a constant-current pulse.Luminous flux, (u', v'), and forward voltage are measured for each LUXEON LED.

After testing, the reliability stress board is returned to the thermal chamber for additional operation.

11. Operating Cycle

LUXEON LEDs are driven with a constant direct current (DC).

12. Ambient conditions including airflow, temperature, and relative humidity

The typical relative humidity within the chamber is < 60%. The temperature uniformity of the board (center to edge) wasexperimentally determined to be less than 2°C.

The photometry measurement temperature is set and monitored to be within 25°C ± 2°C with no forced airflow and RH < 65%.

13. Ts

and ambient temperatures (ambient temperature measured 1.5mm above reliability stress board)

In all cases, both Ts and Tair meet or exceed the IESNA LM-80-08 limits.

14. Drive current of the LED light source during lifetime test

See tables.

15. Initial luminous flux and forward voltage at photometric measurement current

See tables.

16. Lumen maintenance for data for each individual light source along with median value, standard deviation,minimum and maximum lumen maintenance value for all of the light sources

See tables.

17. Observation of LED light source failures including the failure conditions and time of failure

No failures observed in devices reported.

18. LED light source monitoring interval

Units were tested at 0, 500, 1000, then at 1000-hour intervals after 1000 hours.

19. Photometric measurement uncertainty

Long-term measurement uncertainty is based on reproducibility tests done over a period of one year, calculated to k = 2 coverage(i.e. 95% coverage).

Luminous Flux (Φ v ) ± 2%

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Forward Voltage (V f ) ± 0.4%

1976 UCS color space, u' ± 0.1%1976 UCS color space, v' ± 0.1%Note: u' and v' measurement accuracy may vary by color point location.Note: k = 2 coverage means that the numbers cited represent ± 2 standard deviations of measurement uncertainty based onreproducibility tests done over a period of one year.

20. Chromaticity shift reported over the measurement time

See tables.

21. Sampling Method/Sample size

Samples have been selected to be representative of the overall population being tested. AQL "Zero Based Acceptance SamplingPlan" has been used to pick samples from a typical lot size of 250 units. The AQL level is 4%.

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22. ISO 17025-2005 Accreditation

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Notes

Data is for reference only and is not an endorsement to exceed the Data Sheet operating conditions.The TM-21 extrapolations are based on IES TM-21-11 "Projecting Long Term Lumen Maintenance of LED Light Sources. TheTM-21 lumen maintenance model is based on the flux data normalized to 1 at 0 hours and the use of a exponential model forflux(time):

Flux(time) = B exp[-alpha*time], where normally B ≅ 1, and alpha > 0.An L70 extrapolation less than 0 means that the model predicts an increasing flux output with time, i.e. alpha < 0 (see graphs).Generally, this means that additional test time is needed to determine the long-term lumen maintenance behavior.

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Disclaimer

Although PHILIPS LUMILEDS LIGHTING COMPANY has attempted to provide the most accurate information and materials andservices data (hereinafter "Data"), the Data is provided "as is" and may contain errors. The entire risk of use of the data shall bewith the user. PHILIPS LUMILEDS LIGHTING COMPANY makes no warranty, express or implied, including, but not limited to, theimplied warranties of merchantability and fitness for a particular purpose, regarding the contents or correctness of the Data

provided or the ability of the Data to meet the user's needs or expectations. PHILIPS LUMILEDS LIGHTING COMPANY reservesthe right to make changes without notice. You as user agree to this disclaimer and user agreement with the download or use of theprovided materials and Data.

In no event shall PHILIPS LUMILEDS LIGHTING COMPANY be liable for any direct, indirect, special, incidental, exemplary, orconsequential damages arising out of or related to the use of the Data, however caused, regardless of theory of liability, and

whether or not PHILIPS LUMILEDS LIGHTING COMPANY has been advised of the possibility of such damage. This limitationshall apply notwithstanding any failure of essential purpose or any exclusive remedy.

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Normalized Flux Statistics for I f = 100mA

0hrs 500hrs 1000hrs 2000hrs 3000hrs 4000hrs 5000hrs 6000hrs 7000hrs alpha B L70

median = 1.000 1.010 0.992 0.975 0.968 0.962 0.956 0.948 0.938

Ts=Tair=105°C average = 1.000 1.011 0.992 0.976 0.969 0.963 0.957 0.949 0.938 7.6058e-06 0.9918 45,816

st dev = 0.000 0.004 0.004 0.003 0.003 0.004 0.004 0.002 0.002 TM-21 L70(7k) > 42,000hrs

min = 1.000 1.005 0.986 0.970 0.963 0.955 0.952 0.945 0.934

max = 1.000 1.025 1.007 0.988 0.980 0.971 0.963 0.953 0.942

median = 1.000 0.980 0.971 0.965 0.962 0.958 0.955 0.947 0.940


st dev = 0.000 0.004 0.004 0.004 0.005 0.004 0.004 0.004 0.004 TM-21 L70(7k) > 42,000hrs

min = 1.000 0.972 0.964 0.959 0.958 0.952 0.949 0.939 0.932

max = 1.000 0.987 0.981 0.976 0.974 0.968 0.963 0.957 0.949

Delta u'v' for I f = 100mA

0hrs 500hrs 1000hrs 2000hrs 3000hrs 4000hrs 5000hrs 6000hrs 7000hrs

median = 0.0000 0.0012 0.0011 0.0015 0.0014 0.0021 0.0026 0.0033 0.0041

Ts=Tair=105°C average = 0.0000 0.0012 0.0012 0.0015 0.0014 0.0022 0.0027 0.0033 0.0040

st dev = 0.0000 0.0001 0.0001 0.0002 0.0003 0.0004 0.0004 0.0003 0.0003

min = 0.0000 0.0009 0.0008 0.0010 0.0006 0.0013 0.0019 0.0026 0.0034

max = 0.0000 0.0014 0.0014 0.0020 0.0019 0.0027 0.0033 0.0039 0.0044

median = 0.0000 0.0026 0.0029 0.0037 0.0042 0.0049 0.0056 0.0064 0.0073

Ts=Tair=55°C average = 0.0000 0.0026 0.0030 0.0037 0.0042 0.0048 0.0057 0.0064 0.0073

st dev = 0.0000 0.0003 0.0003 0.0004 0.0003 0.0003 0.0003 0.0004 0.0003

min = 0.0000 0.0020 0.0023 0.0028 0.0033 0.0041 0.0050 0.0056 0.0066

max = 0.0000 0.0032 0.0035 0.0042 0.0049 0.0054 0.0062 0.0069 0.0080

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Normalized Flux Statistics for I f = 150mA

0hrs 500hrs 1000hrs 2000hrs 3000hrs 4000hrs 5000hrs 6000hrs 7000hrs alpha B L70

median = 1.000 1.015 0.997 0.976 0.962 0.954 0.948 0.940 0.929


st dev = 0.000 0.005 0.005 0.006 0.003 0.002 0.002 0.002 0.003 TM-21 L70(7k) = 39,000hrs

min = 1.000 1.004 0.985 0.963 0.958 0.951 0.946 0.938 0.926

max = 1.000 1.022 1.002 0.983 0.969 0.958 0.952 0.944 0.934

median = 1.000 0.984 0.975 0.968 0.962 0.955 0.949 0.943 0.935


st dev = 0.000 0.006 0.006 0.007 0.006 0.004 0.004 0.004 0.004 TM-21 L70(7k) > 42,000hrs

min = 1.000 0.972 0.963 0.955 0.953 0.950 0.946 0.937 0.931

max = 1.000 0.997 0.989 0.983 0.977 0.965 0.962 0.955 0.948

Delta u'v' for I f = 150mA

0hrs 500hrs 1000hrs 2000hrs 3000hrs 4000hrs 5000hrs 6000hrs 7000hrs

median = 0.0000 0.0010 0.0010 0.0015 0.0020 0.0030 0.0043 0.0054 0.0067

Ts=Tair=105°C average = 0.0000 0.0010 0.0011 0.0016 0.0021 0.0031 0.0042 0.0054 0.0066

st dev = 0.0000 0.0002 0.0003 0.0003 0.0003 0.0004 0.0006 0.0006 0.0006

min = 0.0000 0.0006 0.0007 0.0012 0.0016 0.0022 0.0028 0.0039 0.0051

max = 0.0000 0.0013 0.0015 0.0021 0.0027 0.0041 0.0055 0.0067 0.0079

median = 0.0000 0.0020 0.0023 0.0029 0.0035 0.0041 0.0048 0.0055 0.0065

Ts=Tair=55°C average = 0.0000 0.0020 0.0024 0.0029 0.0035 0.0040 0.0048 0.0055 0.0065

st dev = 0.0000 0.0003 0.0003 0.0003 0.0003 0.0004 0.0004 0.0003 0.0004

min = 0.0000 0.0014 0.0016 0.0021 0.0026 0.0029 0.0037 0.0047 0.0054

max = 0.0000 0.0026 0.0031 0.0036 0.0041 0.0046 0.0055 0.0060 0.0073

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Luminous Flux [lm] data for tested units

sT = T

air= 55°C, I f = 100mA; T s ≥ 53°C and Tair ≥ 50°C in compliance with LM-80-08

CCT (t=0) 0hrs 500hrs 1000hrs 2000hrs 3000hrs 4000hrs 5000hrs 6000hrs 7000hrs

1 2988K 28.239 27.834 27.533 27.361 27.257 27.141 27.000 26.808 26.644

2 2980K 28.029 27.488 27.220 27.046 26.943 26.834 26.774 26.597 26.419

3 2993K 28.242 27.859 27.537 27.381 27.328 27.194 27.080 26.844 26.691

4 3003K 27.942 27.590 27.408 27.278 27.206 27.006 26.900 26.699 26.519

5 2983K 28.137 27.656 27.367 27.208 27.043 26.880 26.718 26.527 26.312

6 2997K 28.376 27.840 27.549 27.360 27.307 27.146 27.034 26.865 26.685

7 2981K 27.983 27.388 27.153 26.978 26.929 26.815 26.725 26.413 26.191

8 2980K 28.197 27.502 27.323 27.190 27.139 26.971 26.813 26.701 26.455

9 2978K 27.297 26.693 26.454 26.315 26.272 26.192 26.121 25.947 25.739

10 2952K 28.258 27.671 27.356 27.186 27.126 27.002 26.870 26.750 26.545

11 3029K 28.169 27.533 27.292 27.184 27.198 27.061 26.964 26.655 26.467

12 2995K 28.279 27.557 27.273 27.124 27.108 26.947 26.852 26.666 26.508

13 2988K 28.288 27.651 27.428 27.318 27.248 27.126 27.016 26.740 26.624

14 2996K 28.172 27.694 27.543 27.441 27.355 27.242 27.005 26.701 26.559

15 2988K 27.589 27.192 27.024 26.910 26.870 26.706 26.567 26.397 26.171

16 2975K 28.152 27.552 27.288 27.099 26.986 26.893 26.833 26.682 26.436

17 3000K 28.068 27.518 27.361 27.201 27.096 26.870 26.750 26.583 26.380

18 3031K 28.518 27.764 27.547 27.399 27.308 27.140 27.063 26.766 26.581

19 2986K 27.676 27.100 26.896 26.759 26.739 26.588 26.520 26.405 26.211

20 3000K 28.094 27.615 27.432 27.281 27.255 27.158 27.026 26.721 26.459

21 2975K 27.741 27.079 26.872 26.705 26.659 26.572 26.509 26.253 26.088

22 2985K 27.925 27.395 27.169 26.995 26.907 26.792 26.631 26.376 26.147

23 2974K 28.061 27.670 27.424 27.245 27.198 27.080 26.994 26.699 26.426

24 2980K 28.060 27.498 27.269 27.088 26.978 26.889 26.722 26.573 26.393

25 2986K 27.732 26.965 26.757 26.666 26.604 26.491 26.334 26.164 25.899

Normalized Luminous Flux data for tested units

sT = T

air= 55°C, I f = 100mA; T

s ≥ 53°C and T air ≥ 50°C in compliance with LM-80-08


1 2988K 1.000 0.986 0.975 0.969 0.965 0.961 0.956 0.949 0.944

2 2980K 1.000 0.981 0.971 0.965 0.961 0.957 0.955 0.949 0.943

3 2993K 1.000 0.986 0.975 0.970 0.968 0.963 0.959 0.951 0.945

4 3003K 1.000 0.987 0.981 0.976 0.974 0.967 0.963 0.956 0.949

5 2983K 1.000 0.983 0.973 0.967 0.961 0.955 0.950 0.943 0.935

6 2997K 1.000 0.981 0.971 0.964 0.962 0.957 0.953 0.947 0.940

7 2981K 1.000 0.979 0.970 0.964 0.962 0.958 0.955 0.944 0.936

8 2980K 1.000 0.975 0.969 0.964 0.962 0.957 0.951 0.947 0.938

9 2978K 1.000 0.978 0.969 0.964 0.962 0.960 0.957 0.951 0.943

10 2952K 1.000 0.979 0.968 0.962 0.960 0.956 0.951 0.947 0.939

11 3029K 1.000 0.977 0.969 0.965 0.966 0.961 0.957 0.946 0.940

12 2995K 1.000 0.974 0.964 0.959 0.959 0.953 0.950 0.943 0.937

13 2988K 1.000 0.977 0.970 0.966 0.963 0.959 0.955 0.945 0.941

14 2996K 1.000 0.983 0.978 0.974 0.971 0.967 0.959 0.948 0.943

15 2988K 1.000 0.986 0.980 0.975 0.974 0.968 0.963 0.957 0.949

16 2975K 1.000 0.979 0.969 0.963 0.959 0.955 0.953 0.948 0.939

17 3000K 1.000 0.980 0.975 0.969 0.965 0.957 0.953 0.947 0.940

18 3031K 1.000 0.974 0.966 0.961 0.958 0.952 0.949 0.939 0.932

19 2986K 1.000 0.979 0.972 0.967 0.966 0.961 0.958 0.954 0.947

20 3000K 1.000 0.983 0.976 0.971 0.970 0.967 0.962 0.951 0.942

21 2975K 1.000 0.976 0.969 0.963 0.961 0.958 0.956 0.946 0.940

22 2985K 1.000 0.981 0.973 0.967 0.964 0.959 0.954 0.945 0.936

23 2974K 1.000 0.986 0.977 0.971 0.969 0.965 0.962 0.951 0.942

24 2980K 1.000 0.980 0.972 0.965 0.961 0.958 0.952 0.947 0.941

25 2986K 1.000 0.972 0.965 0.962 0.959 0.955 0.950 0.943 0.934

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TM-21 Extrapolation of Luminous Flux data for tested units

sT = T

air= 55°C, I

f= 100mA; T s ≥ 53°C and Tair ≥ 50°C in compliance with LM-80-08

CCT (t=0) alpha B L70

1 2988K 5.3636e-06 0.9807 62,869

2 2980K 4.5225e-06 0.9747 73,190

3 2993K 5.3002e-06 0.9822 63,903

4 3003K 5.7558e-06 0.9892 60,081

5 2983K 6.6085e-06 0.9805 50,990

6 2997K 5.0839e-06 0.9759 65,355

7 2981K 5.9862e-06 0.9792 56,076

8 2980K 5.4743e-06 0.9770 60,898

9 2978K 4.3053e-06 0.9747 76,904

10 2952K 4.7494e-06 0.9729 69,325

11 3029K 5.6469e-06 0.9803 59,635

12 2995K 4.7858e-06 0.9707 68,322

13 2988K 5.4024e-06 0.9784 61,971

14 2996K 6.9895e-06 0.9908 49,709

15 2988K 5.6459e-06 0.9891 61,225

16 2975K 4.5757e-06 0.9725 71,862

17 3000K 6.1438e-06 0.9820 55,104

18 3031K 6.1298e-06 0.9747 54,011

19 2986K 4.1081e-06 0.9767 81,087

20 3000K 6.2023e-06 0.9876 55,496

21 2975K 4.7254e-06 0.9745 70,005

22 2985K 6.4376e-06 0.9820 52,586

23 2974K 6.0385e-06 0.9865 56,808

24 2980K 5.1910e-06 0.9767 64,166

25 2986K 5.7679e-06 0.9755 57,532

ave 2988K 5.4778e-06 0.9794 61,311

CIE 1976 u' data for tested unitsTs = Tair = 55°C, I f = 100mA; T s ≥ 53°C and Tair ≥ 50°C in compliance with LM-80-08


1 2988K 0.2496 0.2477 0.2474 0.2466 0.2464 0.2455 0.2447 0.2441 0.2433

2 2980K 0.2502 0.2479 0.2477 0.2467 0.2467 0.2458 0.2450 0.2445 0.2436

3 2993K 0.2499 0.2478 0.2474 0.2466 0.2465 0.2456 0.2447 0.2440 0.2431

4 3003K 0.2494 0.2475 0.2474 0.2466 0.2465 0.2457 0.2448 0.2442 0.2434

5 2983K 0.2504 0.2482 0.2479 0.2471 0.2468 0.2459 0.2448 0.2443 0.2433

6 2997K 0.2496 0.2473 0.2470 0.2461 0.2459 0.2451 0.2442 0.2437 0.2428

7 2981K 0.2499 0.2475 0.2473 0.2465 0.2464 0.2456 0.2449 0.2440 0.2432

8 2980K 0.2500 0.2478 0.2474 0.2468 0.2468 0.2460 0.2450 0.2442 0.2435

9 2978K 0.2501 0.2476 0.2471 0.2465 0.2465 0.2457 0.2451 0.2443 0.2436

10 2952K 0.2511 0.2486 0.2483 0.2474 0.2473 0.2464 0.2456 0.2448 0.2441

11 3029K 0.2486 0.2459 0.2456 0.2448 0.2449 0.2441 0.2433 0.2424 0.2418

12 2995K 0.2497 0.2472 0.2469 0.2460 0.2461 0.2453 0.2444 0.2436 0.2430

13 2988K 0.2497 0.2473 0.2471 0.2465 0.2465 0.2457 0.2448 0.2440 0.2434

14 2996K 0.2499 0.2476 0.2474 0.2468 0.2468 0.2459 0.2452 0.2443 0.2437

15 2988K 0.2501 0.2483 0.2481 0.2476 0.2469 0.2465 0.2455 0.2448 0.2438

16 2975K 0.2505 0.2479 0.2477 0.2469 0.2466 0.2461 0.2453 0.2446 0.2438

17 3000K 0.2497 0.2476 0.2475 0.2468 0.2466 0.2459 0.2451 0.2446 0.2436

18 3031K 0.2485 0.2456 0.2455 0.2447 0.2443 0.2438 0.2429 0.2423 0.2413

19 2986K 0.2497 0.2473 0.2471 0.2463 0.2459 0.2454 0.2446 0.2440 0.2430

20 3000K 0.2495 0.2472 0.2472 0.2464 0.2461 0.2456 0.2446 0.2436 0.2430

21 2975K 0.2502 0.2477 0.2474 0.2467 0.2464 0.2459 0.2450 0.2440 0.2434

22 2985K 0.2502 0.2478 0.2476 0.2469 0.2464 0.2459 0.2450 0.2442 0.2436

23 2974K 0.2505 0.2483 0.2480 0.2473 0.2470 0.2465 0.2455 0.2446 0.2439

24 2980K 0.2502 0.2479 0.2477 0.2470 0.2466 0.2461 0.2451 0.2443 0.2437

25 2986K 0.2498 0.2470 0.2468 0.2460 0.2458 0.2453 0.2442 0.2435 0.2429

Page 14

CIE 1976 v' data for tested unitsT

s= T

air= 55°C, I



1 2988K 0.5272 0.5263 0.5258 0.5258 0.5251 0.5250 0.5249 0.5249 0.5242

2 2980K 0.5260 0.5250 0.5245 0.5244 0.5238 0.5236 0.5236 0.5234 0.5227

3 2993K 0.5251 0.5242 0.5236 0.5235 0.5229 0.5227 0.5227 0.5225 0.5220

4 3003K 0.5255 0.5247 0.5244 0.5244 0.5237 0.5235 0.5234 0.5233 0.5228

5 2983K 0.5245 0.5235 0.5230 0.5229 0.5221 0.5218 0.5218 0.5215 0.5209

6 2997K 0.5258 0.5247 0.5242 0.5241 0.5235 0.5232 0.5232 0.5231 0.5227

7 2981K 0.5270 0.5258 0.5255 0.5254 0.5248 0.5247 0.5246 0.5244 0.5238

8 2980K 0.5268 0.5256 0.5254 0.5254 0.5248 0.5245 0.5244 0.5241 0.5237

9 2978K 0.5267 0.5256 0.5252 0.5251 0.5245 0.5245 0.5245 0.5244 0.5239

10 2952K 0.5271 0.5260 0.5256 0.5254 0.5248 0.5247 0.5245 0.5244 0.5240

11 3029K 0.5243 0.5230 0.5226 0.5225 0.5219 0.5219 0.5217 0.5216 0.5211

12 2995K 0.5253 0.5240 0.5234 0.5233 0.5227 0.5225 0.5224 0.5224 0.5218

13 2988K 0.5264 0.5253 0.5249 0.5248 0.5243 0.5241 0.5240 0.5239 0.5235

14 2996K 0.5245 0.5234 0.5231 0.5230 0.5223 0.5222 0.5221 0.5220 0.5215

15 2988K 0.5250 0.5242 0.5238 0.5238 0.5231 0.5231 0.5229 0.5228 0.5221

16 2975K 0.5257 0.5246 0.5242 0.5242 0.5235 0.5235 0.5235 0.5232 0.5227

17 3000K 0.5248 0.5237 0.5233 0.5232 0.5225 0.5224 0.5222 0.5222 0.5215

18 3031K 0.5246 0.5232 0.5228 0.5227 0.5220 0.5219 0.5218 0.5218 0.5210

19 2986K 0.5268 0.5256 0.5253 0.5252 0.5248 0.5247 0.5245 0.5245 0.5238

20 3000K 0.5254 0.5244 0.5240 0.5241 0.5234 0.5233 0.5233 0.5229 0.5225

21 2975K 0.5268 0.5255 0.5252 0.5251 0.5247 0.5245 0.5246 0.5244 0.5238

22 2985K 0.5254 0.5243 0.5239 0.5238 0.5230 0.5230 0.5228 0.5228 0.5223

23 2974K 0.5257 0.5248 0.5243 0.5243 0.5237 0.5236 0.5234 0.5234 0.5227

24 2980K 0.5262 0.5252 0.5247 0.5247 0.5240 0.5238 0.5237 0.5235 0.5230

25 2986K 0.5265 0.5251 0.5247 0.5247 0.5241 0.5240 0.5237 0.5237 0.5232

Delta u'v' data for tested unitsTs = Tair = 55°C, I f = 100mA; T s ≥ 53°C and Tair ≥ 50°C in compliance with LM-80-08


1 2988K 0.0000 0.0021 0.0025 0.0033 0.0038 0.0046 0.0054 0.0059 0.0069

2 2980K 0.0000 0.0025 0.0029 0.0039 0.0042 0.0051 0.0057 0.0062 0.0074

3 2993K 0.0000 0.0023 0.0029 0.0036 0.0040 0.0049 0.0057 0.0065 0.0075

4 3003K 0.0000 0.0021 0.0023 0.0030 0.0033 0.0041 0.0050 0.0056 0.0066

5 2983K 0.0000 0.0025 0.0029 0.0037 0.0043 0.0053 0.0062 0.0068 0.0080

6 2997K 0.0000 0.0026 0.0030 0.0039 0.0043 0.0051 0.0060 0.0065 0.0074

7 2981K 0.0000 0.0027 0.0030 0.0038 0.0041 0.0048 0.0055 0.0065 0.0074

8 2980K 0.0000 0.0025 0.0029 0.0034 0.0038 0.0046 0.0055 0.0064 0.0072

9 2978K 0.0000 0.0028 0.0034 0.0040 0.0042 0.0050 0.0055 0.0063 0.0071

10 2952K 0.0000 0.0027 0.0032 0.0041 0.0044 0.0053 0.0061 0.0069 0.0077

11 3029K 0.0000 0.0031 0.0035 0.0042 0.0044 0.0051 0.0059 0.0068 0.0075

12 2995K 0.0000 0.0029 0.0035 0.0042 0.0045 0.0053 0.0061 0.0068 0.0076

13 2988K 0.0000 0.0027 0.0030 0.0036 0.0039 0.0047 0.0055 0.0063 0.0069

14 2996K 0.0000 0.0026 0.0028 0.0034 0.0038 0.0046 0.0053 0.0062 0.0069

15 2988K 0.0000 0.0020 0.0023 0.0028 0.0037 0.0041 0.0051 0.0057 0.0069

16 2975K 0.0000 0.0028 0.0032 0.0040 0.0045 0.0050 0.0057 0.0064 0.0074

17 3000K 0.0000 0.0024 0.0026 0.0033 0.0039 0.0045 0.0052 0.0057 0.0070

18 3031K 0.0000 0.0032 0.0035 0.0042 0.0049 0.0054 0.0062 0.0068 0.0080

19 2986K 0.0000 0.0027 0.0030 0.0037 0.0043 0.0048 0.0056 0.0062 0.0073

20 3000K 0.0000 0.0025 0.0026 0.0033 0.0039 0.0044 0.0053 0.0064 0.0071

21 2975K 0.0000 0.0029 0.0032 0.0039 0.0044 0.0049 0.0057 0.0066 0.0074

22 2985K 0.0000 0.0026 0.0029 0.0037 0.0044 0.0049 0.0058 0.0065 0.0072

23 2974K 0.0000 0.0024 0.0029 0.0035 0.0040 0.0046 0.0055 0.0064 0.0072

24 2980K 0.0000 0.0025 0.0028 0.0035 0.0042 0.0048 0.0056 0.0064 0.0072

25 2986K 0.0000 0.0031 0.0035 0.0042 0.0047 0.0052 0.0062 0.0069 0.0076

Page 15

Forward Voltage [V] data for tested units

sT = Tair = 55°C, I f = 100mA; T s ≥ 53°C and Tair ≥ 50°C in compliance with LM-80-08


1 2988K 2.978 3.056 3.066 3.060 3.059 3.063 3.057 3.050 3.050

2 2980K 2.933 3.004 3.012 3.007 3.006 3.011 3.006 2.995 2.999

3 2993K 2.925 3.010 3.018 3.013 3.013 3.018 3.014 3.006 3.008

4 3003K 2.994 3.057 3.066 3.060 3.059 3.063 3.058 3.053 3.051

5 2983K 3.097 3.028 3.038 3.032 3.030 3.035 3.030 3.019 3.015

6 2997K 2.988 3.058 3.068 3.062 3.061 3.066 3.059 3.043 3.052

7 2981K 2.870 2.937 2.955 3.003 3.032 3.032 3.031 3.029 3.026

8 2980K 2.984 3.063 3.072 3.066 3.065 3.068 3.063 3.058 3.049

9 2978K 2.992 3.057 3.067 3.061 3.061 3.065 3.060 3.051 3.046

10 2952K 3.049 3.062 3.070 3.064 3.063 3.067 3.061 3.059 3.054

11 3029K 2.943 3.021 3.030 3.026 3.026 3.031 3.029 3.021 3.022

12 2995K 2.983 3.065 3.074 3.068 3.067 3.070 3.065 3.060 3.058

13 2988K 2.977 3.031 3.041 3.036 3.036 3.041 3.038 3.025 3.022

14 2996K 2.967 3.028 3.038 3.025 3.033 3.037 3.037 3.037 3.029

15 2988K 2.987 3.061 3.068 3.062 3.061 3.065 3.060 3.058 3.053

16 2975K 2.971 3.066 3.074 3.068 3.068 3.071 3.067 3.067 3.060

17 3000K 2.954 3.014 3.022 3.017 3.017 3.021 3.019 3.018 3.014

18 3031K 3.001 3.033 3.042 3.038 3.039 3.043 3.039 3.036 3.032

19 2986K 2.987 3.062 3.071 3.064 3.064 3.067 3.062 3.068 3.061

20 3000K 2.860 2.924 3.059 3.053 3.045 3.055 3.051 3.047 3.039

21 2975K 2.999 3.060 3.067 3.061 3.060 3.063 3.060 3.053 3.049

22 2985K 3.045 3.032 3.040 3.034 3.033 3.037 3.034 3.030 3.030

23 2974K 2.974 3.059 3.067 3.061 3.061 3.064 3.059 3.061 3.052

24 2980K 2.974 3.047 3.054 3.048 3.047 3.051 3.048 3.044 3.041

25 2986K 2.980 3.043 3.051 3.049 3.044 3.047 3.045 3.046 3.048

Page 16

Luminous Flux [lm] data for tested unitssT = T

air= 105°C, I f = 100mA; T s ≥ 103°C and Tair ≥ 100°C in compliance with LM-80-08


1 2996K 28.323 28.602 28.063 27.597 27.361 27.173 27.023 26.843 26.539

2 3003K 28.305 28.495 28.152 27.689 27.489 27.223 27.070 26.849 26.586

3 2999K 28.430 28.757 28.219 27.727 27.443 27.236 27.091 26.872 26.554

4 2983K 28.390 28.603 28.117 27.652 27.492 27.372 27.242 27.033 26.698

5 2994K 28.522 28.879 28.338 27.881 27.686 27.555 27.422 27.183 26.861

6 2998K 28.375 28.701 28.147 27.681 27.438 27.335 27.112 26.892 26.588

7 2961K 28.188 28.438 27.897 27.428 27.231 27.081 26.896 26.714 26.390

8 2974K 28.329 28.698 28.184 27.728 27.456 27.300 27.123 26.827 26.549

9 2962K 27.961 28.254 27.714 27.274 27.130 27.003 26.820 26.557 26.298

10 2973K 28.094 28.372 27.848 27.359 27.163 27.020 26.892 26.738 26.418

11 3038K 28.531 29.253 28.732 28.199 27.955 27.710 27.487 27.145 26.827

12 3012K 28.445 28.677 28.135 27.669 27.531 27.406 27.225 26.951 26.681

13 2999K 28.015 28.286 27.733 27.297 27.077 26.941 26.784 26.540 26.263

14 3043K 28.289 28.585 28.057 27.616 27.394 27.167 27.021 26.784 26.542

15 2999K 28.328 28.574 28.037 27.547 27.369 27.179 27.053 26.866 26.554

16 3023K 28.612 28.816 28.289 27.793 27.563 27.323 27.230 27.059 26.750

17 2988K 28.254 28.664 28.117 27.633 27.394 27.147 26.925 26.775 26.473

18 2987K 28.346 28.647 28.125 27.647 27.429 27.225 27.051 26.848 26.501

19 2959K 28.007 28.345 27.777 27.362 27.186 27.017 26.914 26.622 26.360

20 2992K 28.666 29.018 28.491 28.021 27.843 27.698 27.601 27.202 26.941

21 2985K 28.248 28.547 27.995 27.524 27.345 27.121 27.003 26.773 26.451

22 2978K 28.155 28.297 27.764 27.324 27.188 27.010 26.815 26.641 26.390

23 2967K 28.369 28.742 28.206 27.737 27.605 27.428 27.283 26.883 26.645

24 3019K 28.479 28.763 28.252 27.794 27.619 27.422 27.302 27.057 26.739

25 3003K 28.123 28.470 27.942 27.493 27.403 27.235 27.078 26.678 26.436

Normalized Luminous Flux data for tested unitssT = Tair = 105°C, I f = 100mA; T s ≥ 103°C and Tair ≥ 100°C in compliance with LM-80-08


1 2996K 1.000 1.010 0.991 0.974 0.966 0.959 0.954 0.948 0.937

2 3003K 1.000 1.007 0.995 0.978 0.971 0.962 0.956 0.949 0.939

3 2999K 1.000 1.012 0.993 0.975 0.965 0.958 0.953 0.945 0.934

4 2983K 1.000 1.008 0.990 0.974 0.968 0.964 0.960 0.952 0.940

5 2994K 1.000 1.013 0.994 0.978 0.971 0.966 0.961 0.953 0.942

6 2998K 1.000 1.011 0.992 0.976 0.967 0.963 0.955 0.948 0.937

7 2961K 1.000 1.009 0.990 0.973 0.966 0.961 0.954 0.948 0.936

8 2974K 1.000 1.013 0.995 0.979 0.969 0.964 0.957 0.947 0.937

9 2962K 1.000 1.010 0.991 0.975 0.970 0.966 0.959 0.950 0.941

10 2973K 1.000 1.010 0.991 0.974 0.967 0.962 0.957 0.952 0.940

11 3038K 1.000 1.025 1.007 0.988 0.980 0.971 0.963 0.951 0.940

12 3012K 1.000 1.008 0.989 0.973 0.968 0.964 0.957 0.947 0.938

13 2999K 1.000 1.010 0.990 0.974 0.966 0.962 0.956 0.947 0.937

14 3043K 1.000 1.010 0.992 0.976 0.968 0.960 0.955 0.947 0.938

15 2999K 1.000 1.009 0.990 0.972 0.966 0.959 0.955 0.948 0.937

16 3023K 1.000 1.007 0.989 0.971 0.963 0.955 0.952 0.946 0.935

17 2988K 1.000 1.015 0.995 0.978 0.970 0.961 0.953 0.948 0.937

18 2987K 1.000 1.011 0.992 0.975 0.968 0.960 0.954 0.947 0.935

19 2959K 1.000 1.012 0.992 0.977 0.971 0.965 0.961 0.951 0.941

20 2992K 1.000 1.012 0.994 0.978 0.971 0.966 0.963 0.949 0.940

21 2985K 1.000 1.011 0.991 0.974 0.968 0.960 0.956 0.948 0.936

22 2978K 1.000 1.005 0.986 0.970 0.966 0.959 0.952 0.946 0.937

23 2967K 1.000 1.013 0.994 0.978 0.973 0.967 0.962 0.948 0.939

24 3019K 1.000 1.010 0.992 0.976 0.970 0.963 0.959 0.950 0.939

25 3003K 1.000 1.012 0.994 0.978 0.974 0.968 0.963 0.949 0.940

Page 17

TM-21 Extrapolation of Luminous Flux data for tested unitssT = Tair = 105°C, I f = 100mA; T s ≥ 103°C and Tair ≥ 100°C in compliance with LM-80-08


1 2996K 7.3844e-06 0.9887 46,760

2 3003K 7.9878e-06 0.9943 43,932

3 2999K 8.1239e-06 0.9906 42,740

4 2983K 6.5926e-06 0.9886 52,365

5 2994K 7.0316e-06 0.9926 49,672

6 2998K 7.7097e-06 0.9914 45,143

7 2961K 7.3488e-06 0.9884 46,946

8 2974K 8.3793e-06 0.9956 42,042

9 2962K 7.2270e-06 0.9918 48,214

10 2973K 6.4855e-06 0.9870 52,974

11 3038K 9.8741e-06 1.0095 37,078

12 3012K 7.2055e-06 0.9893 48,004

13 2999K 7.3959e-06 0.9895 46,805

14 3043K 7.7492e-06 0.9914 44,913

15 2999K 6.9684e-06 0.9869 49,288

16 3023K 7.1436e-06 0.9847 47,778

17 2988K 8.3179e-06 0.9941 42,170

18 2987K 8.0676e-06 0.9919 43,205

19 2959K 7.2424e-06 0.9926 48,220

20 2992K 7.7127e-06 0.9950 45,592

21 2985K 7.6212e-06 0.9904 45,537

22 2978K 6.9144e-06 0.9853 49,449

23 2967K 8.1595e-06 0.9969 43,327

24 3019K 7.4154e-06 0.9918 46,994

25 3003K 8.0643e-06 0.9974 43,910

ave 2993K 7.6058e-06 0.9918 45,816

CIE 1976 u' data for tested unitsT s = T air = 105°C, I f = 100mA; T s ≥ 103°C and Tair ≥ 100°C in compliance with LM-80-08


1 2996K 0.2499 0.2488 0.2488 0.2485 0.2487 0.2482 0.2476 0.2470 0.2465

2 3003K 0.2496 0.2484 0.2484 0.2481 0.2484 0.2478 0.2475 0.2469 0.2459

3 2999K 0.2499 0.2489 0.2489 0.2486 0.2486 0.2480 0.2475 0.2469 0.2462

4 2983K 0.2501 0.2491 0.2491 0.2487 0.2491 0.2486 0.2484 0.2478 0.2471

5 2994K 0.2497 0.2484 0.2485 0.2481 0.2484 0.2479 0.2476 0.2469 0.2461

6 2998K 0.2498 0.2484 0.2485 0.2482 0.2484 0.2478 0.2473 0.2467 0.2460

7 2961K 0.2508 0.2495 0.2494 0.2490 0.2493 0.2488 0.2485 0.2479 0.2470

8 2974K 0.2502 0.2490 0.2490 0.2487 0.2488 0.2483 0.2479 0.2473 0.2466

9 2962K 0.2508 0.2496 0.2495 0.2491 0.2494 0.2490 0.2486 0.2481 0.2475

10 2973K 0.2505 0.2492 0.2492 0.2489 0.2492 0.2486 0.2481 0.2476 0.2468

11 3038K 0.2483 0.2480 0.2481 0.2476 0.2477 0.2471 0.2466 0.2460 0.2452

12 3012K 0.2495 0.2482 0.2482 0.2478 0.2483 0.2477 0.2473 0.2467 0.2460

13 2999K 0.2496 0.2485 0.2487 0.2483 0.2482 0.2474 0.2469 0.2470 0.2471

14 3043K 0.2484 0.2474 0.2473 0.2471 0.2470 0.2461 0.2457 0.2453 0.2451

15 2999K 0.2495 0.2484 0.2485 0.2480 0.2480 0.2473 0.2469 0.2464 0.2463

16 3023K 0.2489 0.2477 0.2477 0.2474 0.2472 0.2464 0.2460 0.2457 0.2454

17 2988K 0.2498 0.2488 0.2488 0.2484 0.2483 0.2475 0.2469 0.2465 0.2463

18 2987K 0.2501 0.2490 0.2491 0.2487 0.2487 0.2479 0.2475 0.2471 0.2470

19 2959K 0.2510 0.2497 0.2497 0.2490 0.2491 0.2483 0.2480 0.2477 0.2474

20 2992K 0.2500 0.2490 0.2491 0.2487 0.2487 0.2479 0.2476 0.2474 0.2472

21 2985K 0.2505 0.2493 0.2493 0.2491 0.2489 0.2479 0.2474 0.2470 0.2468

22 2978K 0.2502 0.2490 0.2491 0.2487 0.2487 0.2477 0.2472 0.2469 0.2468

23 2967K 0.2504 0.2493 0.2493 0.2489 0.2490 0.2482 0.2478 0.2474 0.2472

24 3019K 0.2491 0.2481 0.2480 0.2478 0.2477 0.2468 0.2461 0.2461 0.2460

25 3003K 0.2498 0.2488 0.2488 0.2485 0.2486 0.2479 0.2473 0.2470 0.2468

Page 18

CIE 1976 v' data for tested unitsTs = Tair = 105°C, I f = 100mA; T s ≥ 103°C and Tair ≥ 100°C in compliance with LM-80-08


1 2996K 0.5248 0.5251 0.5249 0.5250 0.5245 0.5241 0.5238 0.5233 0.5225

2 3003K 0.5246 0.5249 0.5249 0.5249 0.5244 0.5240 0.5237 0.5233 0.5226

3 2999K 0.5242 0.5247 0.5246 0.5245 0.5238 0.5235 0.5231 0.5226 0.5219

4 2983K 0.5256 0.5262 0.5260 0.5261 0.5256 0.5255 0.5250 0.5246 0.5239

5 2994K 0.5258 0.5261 0.5259 0.5260 0.5255 0.5253 0.5250 0.5246 0.5237

6 2998K 0.5248 0.5252 0.5250 0.5253 0.5246 0.5243 0.5239 0.5236 0.5227

7 2961K 0.5268 0.5270 0.5269 0.5270 0.5265 0.5263 0.5259 0.5256 0.5248

8 2974K 0.5271 0.5275 0.5275 0.5276 0.5269 0.5265 0.5263 0.5257 0.5253

9 2962K 0.5264 0.5266 0.5266 0.5267 0.5262 0.5259 0.5257 0.5253 0.5247

10 2973K 0.5261 0.5264 0.5262 0.5263 0.5257 0.5256 0.5252 0.5249 0.5241

11 3038K 0.5242 0.5250 0.5249 0.5249 0.5242 0.5238 0.5234 0.5229 0.5221

12 3012K 0.5235 0.5237 0.5235 0.5235 0.5231 0.5228 0.5224 0.5217 0.5211

13 2999K 0.5255 0.5259 0.5258 0.5260 0.5253 0.5249 0.5245 0.5239 0.5232

14 3043K 0.5228 0.5232 0.5230 0.5231 0.5223 0.5219 0.5214 0.5207 0.5201

15 2999K 0.5255 0.5257 0.5255 0.5257 0.5250 0.5247 0.5244 0.5238 0.5232

16 3023K 0.5243 0.5246 0.5244 0.5245 0.5239 0.5235 0.5230 0.5225 0.5219

17 2988K 0.5261 0.5264 0.5262 0.5264 0.5257 0.5253 0.5247 0.5244 0.5238

18 2987K 0.5252 0.5254 0.5253 0.5254 0.5247 0.5244 0.5242 0.5235 0.5229

19 2959K 0.5265 0.5268 0.5266 0.5265 0.5260 0.5257 0.5254 0.5247 0.5242

20 2992K 0.5247 0.5252 0.5250 0.5251 0.5247 0.5243 0.5241 0.5235 0.5230

21 2985K 0.5238 0.5242 0.5240 0.5242 0.5236 0.5231 0.5228 0.5221 0.5216

22 2978K 0.5262 0.5264 0.5262 0.5263 0.5258 0.5255 0.5253 0.5249 0.5242

23 2967K 0.5275 0.5277 0.5276 0.5276 0.5273 0.5268 0.5265 0.5261 0.5254

24 3019K 0.5239 0.5243 0.5241 0.5243 0.5237 0.5233 0.5228 0.5223 0.5218

25 3003K 0.5240 0.5234 0.5231 0.5228 0.5222 0.5215

Delta u'v' data for tested unitsTs = Tair = 105°C, I



1 2996K 0.0000 0.0011 0.0011 0.0013 0.0012 0.0018 0.0024 0.0032 0.0041

2 3003K 0.0000 0.0013 0.0012 0.0015 0.0012 0.0019 0.0023 0.0030 0.0042

3 2999K 0.0000 0.0011 0.0011 0.0014 0.0013 0.0020 0.0026 0.0033 0.0044

4 2983K 0.0000 0.0012 0.0011 0.0015 0.0011 0.0015 0.0019 0.0026 0.0035

5 2994K 0.0000 0.0013 0.0011 0.0016 0.0013 0.0019 0.0022 0.0030 0.0041

6 2998K 0.0000 0.0014 0.0013 0.0016 0.0014 0.0020 0.0026 0.0033 0.0043

7 2961K 0.0000 0.0013 0.0014 0.0018 0.0016 0.0021 0.0025 0.0032 0.0043

8 2974K 0.0000 0.0012 0.0013 0.0016 0.0014 0.0020 0.0024 0.0032 0.0040

9 2962K 0.0000 0.0013 0.0014 0.0018 0.0014 0.0019 0.0023 0.0029 0.0037

10 2973K 0.0000 0.0013 0.0013 0.0016 0.0014 0.0019 0.0025 0.0031 0.0042

11 3038K 0.0000 0.0009 0.0008 0.0010 0.0006 0.0013 0.0019 0.0026 0.0037

12 3012K 0.0000 0.0013 0.0013 0.0017 0.0013 0.0019 0.0024 0.0033 0.0043

13 2999K 0.0000 0.0011 0.0009 0.0014 0.0013 0.0022 0.0028 0.0030 0.0034

14 3043K 0.0000 0.0011 0.0011 0.0014 0.0015 0.0025 0.0031 0.0038 0.0043

15 2999K 0.0000 0.0011 0.0011 0.0016 0.0017 0.0024 0.0029 0.0036 0.0040

16 3023K 0.0000 0.0012 0.0012 0.0015 0.0017 0.0026 0.0031 0.0037 0.0042

17 2988K 0.0000 0.0011 0.0011 0.0015 0.0016 0.0025 0.0032 0.0038 0.0042

18 2987K 0.0000 0.0012 0.0010 0.0014 0.0015 0.0024 0.0028 0.0035 0.0039

19 2959K 0.0000 0.0013 0.0013 0.0020 0.0019 0.0027 0.0031 0.0037 0.0042

20 2992K 0.0000 0.0011 0.0010 0.0014 0.0013 0.0022 0.0026 0.0029 0.0034

21 2985K 0.0000 0.0012 0.0012 0.0015 0.0016 0.0027 0.0033 0.0039 0.0043

22 2978K 0.0000 0.0012 0.0012 0.0015 0.0015 0.0026 0.0031 0.0035 0.0040

23 2967K 0.0000 0.0011 0.0011 0.0015 0.0014 0.0023 0.0028 0.0033 0.0038

24 3019K 0.0000 0.0011 0.0011 0.0014 0.0015 0.0024 0.0033 0.0034 0.0038

25 3003K 0.0000 0.0011 0.0011 0.0014 0.0012 0.0021 0.0027 0.0032 0.0037

Page 19




1 2996K 2.962 3.026 3.034 3.036 3.045 3.050 3.056 3.053 3.043

2 3003K 3.014 3.067 3.075 3.077 3.086 3.092 3.099 3.091 3.091

3 2999K 2.976 3.032 3.039 3.039 3.046 3.050 3.055 3.053 3.051

4 2983K 3.045 3.049 3.055 3.054 3.058 3.061 3.064 3.055 3.053

5 2994K 2.977 3.028 3.036 3.038 3.046 3.051 3.056 3.057 3.053

6 2998K 2.983 2.903 2.925 2.939 2.957 2.976 2.986 2.984 2.982

7 2961K 3.005 3.062 3.070 3.072 3.080 3.087 3.092 3.084 3.080

8 2974K 3.051 3.059 3.066 3.067 3.075 3.082 3.088 3.080 3.080

9 2962K 3.018 3.067 3.073 3.074 3.081 3.087 3.091 3.082 3.083

10 2973K 3.011 3.061 3.069 3.069 3.078 3.084 3.091 3.084 3.082

11 3038K 3.023 3.052 3.060 3.061 3.067 3.074 3.079 3.076 3.070

12 3012K 3.049 3.067 3.076 3.078 3.087 3.095 3.093 3.092 3.081

13 2999K 3.000 3.059 3.065 3.066 3.073 3.078 3.083 3.080 3.081

14 3043K 3.002 3.038 3.043 3.042 3.045 3.048 3.049 3.040 3.037

15 2999K 2.987 3.056 3.062 3.063 3.070 3.075 3.078 3.077 3.076

16 3023K 3.017 3.049 3.054 3.054 3.060 3.065 3.067 3.066 3.066

17 2988K 2.997 3.066 3.072 3.074 3.082 3.088 3.091 3.090 3.085

18 2987K 2.983 3.050 3.057 3.058 3.068 3.074 3.078 3.075 3.076

19 2959K 2.990 3.023 3.030 3.031 3.038 3.044 3.047 3.045 3.045

20 2992K 2.985 3.027 3.034 3.035 3.043 3.049 3.054 3.050 3.043

21 2985K 2.969 3.032 3.037 3.036 3.041 3.045 3.050 3.036 3.040

22 2978K 2.984 3.044 3.049 3.047 3.052 3.055 3.059 3.058 3.054

23 2967K 3.052 3.073 3.078 3.079 3.089 3.094 3.098 3.097 3.095

24 3019K 2.948 3.007 3.012 3.010 3.015 3.018 3.021 3.018 3.014

25 3003K 2.982 3.040 3.045 3.046 3.049 3.054 3.060 3.058 3.056

Page 20

Luminous Flux [lm] data for tested unitss

T = T air = 55°C, I f = 150mA; T s ≥ 53°C and Tair ≥ 50°C in compliance with LM-80-08


1 3027K 33.471 32.973 32.549 32.256 32.068 31.881 31.695 31.536 31.310

2 3014K 33.186 32.621 32.317 32.118 31.882 31.631 31.433 31.288 31.001

3 3017K 33.986 33.450 33.092 32.791 32.561 32.353 32.155 32.036 31.769

4 2991K 33.586 33.150 32.822 32.617 32.289 31.996 31.877 31.749 31.451

5 3002K 33.985 33.579 33.290 33.026 32.737 32.384 32.213 32.209 31.911

6 3040K 33.694 33.526 33.206 33.050 32.765 32.325 32.219 32.061 31.782

7 2986K 34.135 33.536 33.229 33.010 32.801 32.480 32.363 32.102 31.858

8 3007K 33.721 33.242 32.923 32.717 32.393 32.125 31.957 31.729 31.484

9 3041K 34.294 33.592 33.278 33.073 32.830 32.646 32.478 32.230 31.965

10 2993K 33.898 33.781 33.529 33.335 33.130 32.701 32.425 32.181 31.956

11 2989K 33.975 33.553 33.310 33.167 33.064 32.645 32.461 32.187 31.836

12 3020K 34.488 33.752 33.486 33.226 33.086 32.867 32.636 32.330 32.125

13 3043K 34.028 33.422 33.152 32.998 32.751 32.554 32.268 32.066 31.748

14 3012K 34.052 33.595 33.364 33.115 32.934 32.731 32.474 32.306 32.008

15 2992K 33.291 33.007 32.774 32.655 32.315 32.136 32.021 31.800 31.550

16 3053K 34.112 33.681 33.377 33.068 32.826 32.564 32.371 32.060 31.787

17 3048K 34.372 33.751 33.462 33.262 33.103 32.800 32.623 32.285 32.008

18 2986K 33.516 32.939 32.736 32.507 32.402 32.250 32.095 31.767 31.517

19 3016K 34.119 33.450 33.153 33.022 32.896 32.635 32.411 32.044 31.767

20 3002K 33.559 33.006 32.744 32.476 32.299 32.063 31.811 31.576 31.322

21 2992K 34.115 33.676 33.428 33.163 32.946 32.687 32.405 32.141 31.866

22 3007K 34.210 33.259 32.950 32.666 32.602 32.507 32.395 32.157 31.910

23 2992K 34.080 33.230 33.052 32.878 32.751 32.606 32.467 32.129 31.910

24 3007K 33.814 33.163 32.957 32.678 32.567 32.387 32.112 31.902 31.622

25 3041K 33.751 32.840 32.595 32.329 32.291 32.196 32.014 31.845 31.589

Normalized Luminous Flux data for tested unitssT = T air = 55°C, I f = 150mA; T s ≥ 53°C and Tair ≥ 50°C in compliance with LM-80-08


1 3027K 1.000 0.985 0.972 0.964 0.958 0.953 0.947 0.942 0.935

2 3014K 1.000 0.983 0.974 0.968 0.961 0.953 0.947 0.943 0.934

3 3017K 1.000 0.984 0.974 0.965 0.958 0.952 0.946 0.943 0.935

4 2991K 1.000 0.987 0.977 0.971 0.961 0.953 0.949 0.945 0.936

5 3002K 1.000 0.988 0.980 0.972 0.963 0.953 0.948 0.948 0.939

6 3040K 1.000 0.995 0.986 0.981 0.972 0.959 0.956 0.952 0.943

7 2986K 1.000 0.982 0.973 0.967 0.961 0.952 0.948 0.940 0.933

8 3007K 1.000 0.986 0.976 0.970 0.961 0.953 0.948 0.941 0.934

9 3041K 1.000 0.980 0.970 0.964 0.957 0.952 0.947 0.940 0.932

10 2993K 1.000 0.997 0.989 0.983 0.977 0.965 0.957 0.949 0.943

11 2989K 1.000 0.988 0.980 0.976 0.973 0.961 0.955 0.947 0.937

12 3020K 1.000 0.979 0.971 0.963 0.959 0.953 0.946 0.937 0.931

13 3043K 1.000 0.982 0.974 0.970 0.962 0.957 0.948 0.942 0.933

14 3012K 1.000 0.987 0.980 0.972 0.967 0.961 0.954 0.949 0.940

15 2992K 1.000 0.991 0.984 0.981 0.971 0.965 0.962 0.955 0.948

16 3053K 1.000 0.987 0.978 0.969 0.962 0.955 0.949 0.940 0.932

17 3048K 1.000 0.982 0.974 0.968 0.963 0.954 0.949 0.939 0.931

18 2986K 1.000 0.983 0.977 0.970 0.967 0.962 0.958 0.948 0.940

19 3016K 1.000 0.980 0.972 0.968 0.964 0.957 0.950 0.939 0.931

20 3002K 1.000 0.984 0.976 0.968 0.962 0.955 0.948 0.941 0.933

21 2992K 1.000 0.987 0.980 0.972 0.966 0.958 0.950 0.942 0.934

22 3007K 1.000 0.972 0.963 0.955 0.953 0.950 0.947 0.940 0.933

23 2992K 1.000 0.975 0.970 0.965 0.961 0.957 0.953 0.943 0.936

24 3007K 1.000 0.981 0.975 0.966 0.963 0.958 0.950 0.943 0.935

25 3041K 1.000 0.973 0.966 0.958 0.957 0.954 0.949 0.944 0.936

Page 21




1 3027K 5.8540e-06 0.9751 56,624

2 3014K 6.8499e-06 0.9807 49,222

3 3017K 6.0900e-06 0.9761 54,589

4 2991K 6.7501e-06 0.9820 50,147

5 3002K 6.4515e-06 0.9818 52,439

6 3040K 7.5394e-06 0.9937 46,466

7 2986K 7.0271e-06 0.9807 47,979

8 3007K 7.4101e-06 0.9831 45,840

9 3041K 6.5978e-06 0.9773 50,579

10 2993K 8.7665e-06 1.0009 40,794

11 2989K 8.3170e-06 0.9948 42,255

12 3020K 6.9984e-06 0.9788 47,899

13 3043K 7.5821e-06 0.9851 45,055

14 3012K 6.7313e-06 0.9866 50,978

15 2992K 6.3958e-06 0.9917 54,460

16 3053K 7.8384e-06 0.9852 43,603

17 3048K 7.7907e-06 0.9846 43,793

18 2986K 6.2515e-06 0.9847 54,590

19 3016K 7.9807e-06 0.9862 42,945

20 3002K 7.3330e-06 0.9831 46,321

21 2992K 8.0692e-06 0.9888 42,810

22 3007K 4.6212e-06 0.9661 69,729

23 2992K 6.0369e-06 0.9786 55,491

24 3007K 6.7042e-06 0.9817 50,450

25 3041K 4.6625e-06 0.9695 69,863

ave 3012K 6.9082e-06 0.9831 49,158

CIE 1976 u' data for tested unitsT s = Tair = 55°C, I f = 150mA; T s ≥ 53°C and Tair ≥ 50°C in compliance with LM-80-08


1 3027K 0.2483 0.2467 0.2465 0.2458 0.2451 0.2449 0.2439 0.2434 0.2423

2 3014K 0.2490 0.2474 0.2472 0.2465 0.2459 0.2457 0.2448 0.2442 0.2432

3 3017K 0.2485 0.2467 0.2465 0.2457 0.2452 0.2449 0.2441 0.2433 0.2424

4 2991K 0.2495 0.2479 0.2478 0.2470 0.2463 0.2461 0.2453 0.2446 0.2435

5 3002K 0.2494 0.2477 0.2477 0.2468 0.2462 0.2459 0.2451 0.2446 0.2434

6 3040K 0.2484 0.2469 0.2468 0.2461 0.2456 0.2452 0.2444 0.2437 0.2427

7 2986K 0.2498 0.2480 0.2477 0.2471 0.2466 0.2462 0.2456 0.2445 0.2438

8 3007K 0.2492 0.2476 0.2473 0.2466 0.2462 0.2457 0.2450 0.2440 0.2434

9 3041K 0.2479 0.2458 0.2457 0.2450 0.2447 0.2442 0.2436 0.2427 0.2420

10 2993K 0.2498 0.2485 0.2484 0.2478 0.2475 0.2472 0.2463 0.2454 0.2448

11 2989K 0.2496 0.2476 0.2475 0.2468 0.2465 0.2461 0.2454 0.2444 0.2438

12 3020K 0.2486 0.2465 0.2462 0.2457 0.2457 0.2448 0.2441 0.2436 0.2427

13 3043K 0.2480 0.2462 0.2459 0.2453 0.2451 0.2444 0.2437 0.2430 0.2421

14 3012K 0.2491 0.2474 0.2471 0.2466 0.2463 0.2456 0.2448 0.2443 0.2432

15 2992K 0.2497 0.2481 0.2479 0.2472 0.2470 0.2462 0.2451 0.2445 0.2434

16 3053K 0.2480 0.2463 0.2462 0.2454 0.2451 0.2443 0.2436 0.2430 0.2420

17 3048K 0.2481 0.2462 0.2459 0.2452 0.2449 0.2441 0.2434 0.2428 0.2417

18 2986K 0.2497 0.2479 0.2475 0.2470 0.2469 0.2463 0.2456 0.2445 0.2439

19 3016K 0.2492 0.2470 0.2468 0.2464 0.2464 0.2456 0.2448 0.2439 0.2432

20 3002K 0.2494 0.2474 0.2472 0.2466 0.2465 0.2457 0.2449 0.2438 0.2433

21 2992K 0.2497 0.2479 0.2476 0.2470 0.2467 0.2459 0.2450 0.2440 0.2434

22 3007K 0.2494 0.2471 0.2468 0.2463 0.2462 0.2454 0.2444 0.2439 0.2428

23 2992K 0.2497 0.2475 0.2474 0.2469 0.2467 0.2459 0.2451 0.2447 0.2436

24 3007K 0.2493 0.2476 0.2473 0.2467 0.2466 0.2458 0.2448 0.2444 0.2435

25 3041K 0.2481 0.2459 0.2456 0.2449 0.2447 0.2441 0.2431 0.2427 0.2417

Page 22

CIE 1976 v' data for tested unitsTs = Tair = 55°C, I f = 150mA; T s ≥ 53°C and Tair ≥ 50°C in compliance with LM-80-08


1 3027K 0.5260 0.5251 0.5247 0.5245 0.5238 0.5239 0.5239 0.5238 0.5231

2 3014K 0.5253 0.5242 0.5239 0.5238 0.5233 0.5233 0.5232 0.5232 0.5225

3 3017K 0.5267 0.5258 0.5255 0.5254 0.5247 0.5248 0.5248 0.5247 0.5240

4 2991K 0.5268 0.5261 0.5259 0.5257 0.5250 0.5251 0.5252 0.5251 0.5244

5 3002K 0.5256 0.5248 0.5245 0.5243 0.5237 0.5238 0.5238 0.5237 0.5231

6 3040K 0.5234 0.5227 0.5225 0.5224 0.5217 0.5216 0.5217 0.5216 0.5206

7 2986K 0.5268 0.5260 0.5257 0.5256 0.5252 0.5250 0.5251 0.5249 0.5243

8 3007K 0.5254 0.5245 0.5243 0.5240 0.5234 0.5233 0.5233 0.5231 0.5228

9 3041K 0.5252 0.5242 0.5238 0.5238 0.5233 0.5230 0.5232 0.5231 0.5225

10 2993K 0.5255 0.5250 0.5247 0.5247 0.5242 0.5242 0.5241 0.5238 0.5234

11 2989K 0.5271 0.5263 0.5260 0.5260 0.5256 0.5256 0.5257 0.5255 0.5250

12 3020K 0.5259 0.5247 0.5244 0.5247 0.5241 0.5239 0.5239 0.5240 0.5233

13 3043K 0.5243 0.5234 0.5230 0.5230 0.5224 0.5223 0.5222 0.5222 0.5216

14 3012K 0.5252 0.5244 0.5242 0.5241 0.5235 0.5234 0.5235 0.5234 0.5227

15 2992K 0.5260 0.5254 0.5252 0.5252 0.5245 0.5244 0.5245 0.5244 0.5238

16 3053K 0.5229 0.5221 0.5217 0.5216 0.5209 0.5208 0.5207 0.5206 0.5199

17 3048K 0.5231 0.5221 0.5217 0.5218 0.5210 0.5209 0.5209 0.5209 0.5202

18 2986K 0.5271 0.5263 0.5260 0.5261 0.5256 0.5255 0.5254 0.5253 0.5248

19 3016K 0.5242 0.5231 0.5229 0.5229 0.5225 0.5222 0.5223 0.5221 0.5215

20 3002K 0.5254 0.5245 0.5242 0.5243 0.5236 0.5234 0.5234 0.5232 0.5226

21 2992K 0.5261 0.5253 0.5251 0.5251 0.5244 0.5243 0.5242 0.5240 0.5235

22 3007K 0.5245 0.5234 0.5229 0.5230 0.5225 0.5224 0.5223 0.5222 0.5215

23 2992K 0.5259 0.5248 0.5246 0.5247 0.5239 0.5238 0.5238 0.5238 0.5232

24 3007K 0.5250 0.5241 0.5239 0.5239 0.5234 0.5232 0.5232 0.5232 0.5225

25 3041K 0.5245 0.5232 0.5229 0.5228 0.5222 0.5222 0.5221 0.5222 0.5215



1 3027K 0.0000 0.0018 0.0022 0.0029 0.0039 0.0040 0.0048 0.0053 0.0066

2 3014K 0.0000 0.0019 0.0022 0.0028 0.0037 0.0038 0.0046 0.0052 0.0064

3 3017K 0.0000 0.0020 0.0023 0.0030 0.0038 0.0041 0.0048 0.0055 0.0067

4 2991K 0.0000 0.0018 0.0020 0.0028 0.0037 0.0039 0.0046 0.0053 0.0065

5 3002K 0.0000 0.0019 0.0020 0.0028 0.0037 0.0039 0.0046 0.0052 0.0064

6 3040K 0.0000 0.0016 0.0019 0.0025 0.0033 0.0037 0.0043 0.0050 0.0064

7 2986K 0.0000 0.0020 0.0023 0.0029 0.0036 0.0040 0.0045 0.0056 0.0064

8 3007K 0.0000 0.0019 0.0022 0.0030 0.0037 0.0041 0.0047 0.0057 0.0064

9 3041K 0.0000 0.0023 0.0026 0.0032 0.0037 0.0043 0.0048 0.0057 0.0065

10 2993K 0.0000 0.0014 0.0016 0.0021 0.0026 0.0029 0.0037 0.0047 0.0054

11 2989K 0.0000 0.0021 0.0024 0.0029 0.0034 0.0038 0.0044 0.0054 0.0061

12 3020K 0.0000 0.0024 0.0028 0.0031 0.0034 0.0042 0.0049 0.0053 0.0064

13 3043K 0.0000 0.0020 0.0025 0.0030 0.0035 0.0042 0.0049 0.0054 0.0065

14 3012K 0.0000 0.0019 0.0022 0.0028 0.0033 0.0039 0.0046 0.0052 0.0064

15 2992K 0.0000 0.0017 0.0019 0.0026 0.0031 0.0038 0.0048 0.0055 0.0067

16 3053K 0.0000 0.0019 0.0022 0.0030 0.0035 0.0043 0.0050 0.0055 0.0068

17 3048K 0.0000 0.0022 0.0027 0.0032 0.0039 0.0046 0.0052 0.0058 0.0071

18 2986K 0.0000 0.0020 0.0024 0.0028 0.0032 0.0038 0.0044 0.0055 0.0062

19 3016K 0.0000 0.0024 0.0027 0.0031 0.0033 0.0041 0.0048 0.0057 0.0065

20 3002K 0.0000 0.0022 0.0026 0.0031 0.0034 0.0042 0.0050 0.0060 0.0067

21 2992K 0.0000 0.0019 0.0023 0.0028 0.0034 0.0042 0.0050 0.0060 0.0068

22 3007K 0.0000 0.0026 0.0031 0.0035 0.0039 0.0046 0.0055 0.0060 0.0073

23 2992K 0.0000 0.0025 0.0027 0.0031 0.0036 0.0043 0.0051 0.0054 0.0067

24 3007K 0.0000 0.0019 0.0024 0.0028 0.0032 0.0040 0.0048 0.0052 0.0063

25 3041K 0.0000 0.0026 0.0030 0.0036 0.0041 0.0046 0.0055 0.0059 0.0071

Page 23

Forward Voltage [V] data for tested unitssT = Tair = 55°C, I f = 150mA; T s ≥ 53°C and Tair ≥ 50°C in compliance with LM-80-08


1 3027K 3.100 3.148 3.158 3.152 3.153 3.154 3.144 3.140 3.143

2 3014K 3.139 3.185 3.196 3.189 3.187 3.190 3.178 3.170 3.161

3 3017K 3.092 3.175 3.184 3.178 3.175 3.178 3.167 3.159 3.160

4 2991K 3.185 3.205 3.216 3.210 3.207 3.209 3.198 3.192 3.190

5 3002K 3.187 3.174 3.184 3.177 3.173 3.177 3.166 3.162 3.161

6 3040K 3.105 3.168 3.178 3.172 3.169 3.172 3.166 3.162 3.162

7 2986K 3.151 3.204 3.214 3.209 3.205 3.208 3.198 3.193 3.192

8 3007K 3.177 3.187 3.191 3.191 3.199 3.196 3.192 3.185 3.183

9 3041K 3.182 3.202 3.213 3.207 3.204 3.207 3.195 3.194 3.193

10 2993K 3.166 3.188 3.198 3.192 3.188 3.190 3.185 3.184 3.183

11 2989K 3.134 3.176 3.185 3.179 3.176 3.178 3.168 3.162 3.162

12 3020K 3.147 3.184 3.196 3.189 3.190 3.200 3.198 3.191 3.188

13 3043K 3.158 3.196 3.208 3.201 3.200 3.203 3.196 3.194 3.191

14 3012K 3.130 3.194 3.207 3.200 3.198 3.202 3.198 3.195 3.189

15 2992K 3.185 3.193 3.203 3.196 3.194 3.198 3.192 3.190 3.183

16 3053K 3.241 3.170 3.181 3.174 3.173 3.179 3.170 3.164 3.163

17 3048K 3.148 3.176 3.187 3.180 3.179 3.182 3.178 3.173 3.169

18 2986K 3.145 3.161 3.171 3.165 3.164 3.167 3.166 3.162 3.159

19 3016K 3.151 3.079 3.169 3.086 3.094 3.108 3.106 3.106 3.098

20 3002K 3.112 3.169 3.179 3.173 3.170 3.173 3.169 3.166 3.162

21 2992K 3.153 3.187 3.197 3.191 3.189 3.194 3.191 3.185 3.179

22 3007K 3.122 3.157 3.167 3.161 3.159 3.162 3.158 3.155 3.150

23 2992K 3.126 3.157 3.169 3.165 3.164 3.168 3.160 3.151 3.148

24 3007K 3.155 3.196 3.207 3.201 3.199 3.200 3.196 3.196 3.195

25 3041K 3.189 3.178 3.165 3.182 3.180 3.183 3.182 3.180 3.170

Page 24

Luminous Flux [lm] data for tested unitssT = Tair = 105°C, I f = 150mA; T s ≥ 103°C and Tair ≥ 100°C in compliance with LM-80-08


1 2975K 33.935 34.069 33.437 32.696 32.515 32.361 32.214 31.989 31.659

2 2965K 33.916 34.184 33.609 32.968 32.651 32.270 32.144 31.871 31.404

3 2976K 34.182 34.577 33.954 33.177 32.759 32.550 32.357 32.120 31.720

4 3007K 34.338 34.518 33.868 33.112 33.012 32.847 32.645 32.426 32.063

5 2977K 34.053 34.475 33.818 33.120 32.751 32.456 32.281 32.099 31.780

6 2980K 34.062 34.216 33.568 32.902 32.646 32.547 32.376 31.985 31.605

7 3043K 34.681 35.032 34.324 33.648 33.257 32.998 32.806 32.537 32.125

8 2964K 34.046 34.387 33.738 33.171 32.908 32.600 32.356 32.098 31.691

9 2968K 33.842 34.150 33.518 32.855 32.565 32.243 32.030 31.774 31.389

10 3038K 34.657 34.846 34.142 33.478 33.216 33.010 32.791 32.556 32.183

11 3008K 34.171 34.603 33.973 33.361 33.000 32.665 32.395 32.211 31.803

12 2973K 34.529 35.014 34.415 33.706 33.224 32.902 32.698 32.398 31.983

13 3014K 33.632 34.141 33.525 32.892 32.333 32.095 31.972 31.706 31.196

14 2992K 33.232 33.888 33.244 32.535 31.881 31.600 31.478 31.226 30.883

15 3011K 33.577 34.240 33.557 32.797 32.545 32.161 31.885 31.543 31.114

16 3036K 33.720 34.344 33.718 33.162 32.633 32.285 32.086 31.786 31.322

17 2987K 33.210 33.736 33.136 32.617 32.045 31.728 31.445 31.160 30.793

18 2979K 33.862 34.397 33.750 33.032 32.762 32.454 32.186 31.879 31.487

19 3023K 34.687 35.311 34.648 33.891 33.402 33.105 32.948 32.739 32.374

20 3009K 34.383 34.979 34.326 33.637 33.227 32.944 32.673 32.368 32.009

21 3001K 33.689 34.423 33.758 33.068 32.378 32.128 31.932 31.639 31.221

22 3014K 34.231 34.832 34.197 33.369 32.954 32.737 32.532 32.304 31.937

23 2994K 33.889 34.464 33.784 33.111 32.551 32.296 32.056 31.838 31.455

24 2988K 33.836 34.496 33.867 33.159 32.447 32.321 32.193 31.858 31.493

25 2996K 33.581 34.203 33.548 32.859 32.214 31.922 31.793 31.581 31.113

Normalized Luminous Flux data for tested unitssT = Tair = 105°C, I f = 150mA; T s ≥ 103°C and Tair ≥ 100°C in compliance with LM-80-08


1 2975K 1.000 1.004 0.985 0.963 0.958 0.954 0.949 0.943 0.933

2 2965K 1.000 1.008 0.991 0.972 0.963 0.951 0.948 0.940 0.926

3 2976K 1.000 1.012 0.993 0.971 0.958 0.952 0.947 0.940 0.928

4 3007K 1.000 1.005 0.986 0.964 0.961 0.957 0.951 0.944 0.934

5 2977K 1.000 1.012 0.993 0.973 0.962 0.953 0.948 0.943 0.933

6 2980K 1.000 1.005 0.985 0.966 0.958 0.955 0.950 0.939 0.928

7 3043K 1.000 1.010 0.990 0.970 0.959 0.951 0.946 0.938 0.926

8 2964K 1.000 1.010 0.991 0.974 0.967 0.958 0.950 0.943 0.931

9 2968K 1.000 1.009 0.990 0.971 0.962 0.953 0.946 0.939 0.928

10 3038K 1.000 1.005 0.985 0.966 0.958 0.952 0.946 0.939 0.929

11 3008K 1.000 1.013 0.994 0.976 0.966 0.956 0.948 0.943 0.931

12 2973K 1.000 1.014 0.997 0.976 0.962 0.953 0.947 0.938 0.926

13 3014K 1.000 1.015 0.997 0.978 0.961 0.954 0.951 0.943 0.928

14 2992K 1.000 1.020 1.000 0.979 0.959 0.951 0.947 0.940 0.929

15 3011K 1.000 1.020 0.999 0.977 0.969 0.958 0.950 0.939 0.927

16 3036K 1.000 1.019 1.000 0.983 0.968 0.957 0.952 0.943 0.929

17 2987K 1.000 1.016 0.998 0.982 0.965 0.955 0.947 0.938 0.927

18 2979K 1.000 1.016 0.997 0.975 0.967 0.958 0.950 0.941 0.930

19 3023K 1.000 1.018 0.999 0.977 0.963 0.954 0.950 0.944 0.933

20 3009K 1.000 1.017 0.998 0.978 0.966 0.958 0.950 0.941 0.931

21 3001K 1.000 1.022 1.002 0.982 0.961 0.954 0.948 0.939 0.927

22 3014K 1.000 1.018 0.999 0.975 0.963 0.956 0.950 0.944 0.933

23 2994K 1.000 1.017 0.997 0.977 0.961 0.953 0.946 0.940 0.928

24 2988K 1.000 1.019 1.001 0.980 0.959 0.955 0.951 0.942 0.931

25 2996K 1.000 1.019 0.999 0.979 0.959 0.951 0.947 0.940 0.926

Page 25


sT = T air = 105°C, I f = 150mA; T s ≥ 103°C and Tair ≥ 100°C in compliance with LM-80-08


1 2975K 6.1343e-06 0.9765 54,276

2 2965K 9.1252e-06 0.9896 37,946

3 2976K 8.2709e-06 0.9852 41,315

4 3007K 6.3099e-06 0.9792 53,195

5 2977K 7.7778e-06 0.9857 44,005

6 2980K 7.6509e-06 0.9827 44,338

7 3043K 8.6574e-06 0.9861 39,582

8 2964K 8.8706e-06 0.9925 39,356

9 2968K 8.8179e-06 0.9881 39,093

10 3038K 7.5454e-06 0.9812 44,755

11 3008K 9.1414e-06 0.9931 38,265

12 2973K 9.8284e-06 0.9933 35,608

13 3014K 9.3464e-06 0.9932 37,435

14 2992K 9.3313e-06 0.9916 37,315

15 3011K 1.0455e-05 0.9990 34,023

16 3036K 1.0585e-05 1.0017 33,860

17 2987K 1.0879e-05 1.0001 32,791

18 2979K 9.4212e-06 0.9950 37,331

19 3023K 8.3952e-06 0.9902 41,310

20 3009K 9.5699e-06 0.9961 36,862

21 3001K 1.0363e-05 0.9969 34,124

22 3014K 8.1518e-06 0.9890 42,400

23 2994K 9.4404e-06 0.9918 36,913

24 2988K 9.0469e-06 0.9924 38,587

25 2996K 9.6192e-06 0.9922 36,270

ave 2996K 8.9114e-06 0.9905 38,954

CIE 1976 u' data for tested unitsTs = Tair = 105°C, I f = 150mA; T s ≥ 103°C and Tair ≥ 100°C in compliance with LM-80-08


1 2975K 0.2502 0.2490 0.2489 0.2484 0.2486 0.2484 0.2481 0.2475 0.2466

2 2965K 0.2506 0.2495 0.2491 0.2487 0.2488 0.2483 0.2475 0.2471 0.2461

3 2976K 0.2504 0.2492 0.2489 0.2482 0.2481 0.2476 0.2473 0.2468 0.2458

4 3007K 0.2497 0.2485 0.2483 0.2476 0.2474 0.2472 0.2465 0.2459 0.2449

5 2977K 0.2503 0.2492 0.2492 0.2485 0.2485 0.2482 0.2476 0.2470 0.2462

6 2980K 0.2503 0.2490 0.2488 0.2484 0.2483 0.2478 0.2470 0.2462 0.2455

7 3043K 0.2483 0.2471 0.2471 0.2465 0.2464 0.2462 0.2455 0.2448 0.2440

8 2964K 0.2508 0.2497 0.2496 0.2491 0.2492 0.2487 0.2481 0.2472 0.2465

9 2968K 0.2506 0.2494 0.2492 0.2487 0.2488 0.2483 0.2475 0.2468 0.2461

10 3038K 0.2486 0.2474 0.2472 0.2467 0.2467 0.2464 0.2458 0.2449 0.2442

11 3008K 0.2492 0.2481 0.2479 0.2475 0.2474 0.2468 0.2462 0.2455 0.2447

12 2973K 0.2502 0.2491 0.2491 0.2486 0.2485 0.2482 0.2471 0.2467 0.2461

13 3014K 0.2490 0.2484 0.2483 0.2478 0.2475 0.2468 0.2456 0.2451 0.2442

14 2992K 0.2497 0.2490 0.2490 0.2484 0.2483 0.2475 0.2463 0.2459 0.2447

15 3011K 0.2488 0.2482 0.2482 0.2476 0.2471 0.2466 0.2452 0.2447 0.2437

16 3036K 0.2485 0.2479 0.2478 0.2473 0.2472 0.2461 0.2449 0.2445 0.2434

17 2987K 0.2497 0.2488 0.2487 0.2482 0.2480 0.2473 0.2460 0.2456 0.2445

18 2979K 0.2500 0.2492 0.2490 0.2485 0.2480 0.2471 0.2459 0.2450 0.2444

19 3023K 0.2487 0.2481 0.2479 0.2473 0.2465 0.2455 0.2442 0.2435 0.2429

20 3009K 0.2492 0.2487 0.2485 0.2479 0.2473 0.2464 0.2451 0.2443 0.2436

21 3001K 0.2495 0.2487 0.2485 0.2480 0.2476 0.2468 0.2454 0.2446 0.2439

22 3014K 0.2491 0.2485 0.2484 0.2476 0.2470 0.2463 0.2451 0.2443 0.2435

23 2994K 0.2496 0.2488 0.2487 0.2483 0.2481 0.2473 0.2459 0.2452 0.2445

24 2988K 0.2498 0.2491 0.2491 0.2485 0.2481 0.2474 0.2461 0.2454 0.2447

25 2996K 0.2496 0.2490 0.2489 0.2484 0.2481 0.2475 0.2463 0.2454 0.2447

Page 26

CIE 1976 v' data for tested unitsT s = Tair = 105°C, I f = 150mA; T s ≥ 103°C and Tair ≥ 100°C in compliance with LM-80-08


1 2975K 0.5268 0.5271 0.5269 0.5267 0.5259 0.5255 0.5250 0.5239 0.5231

2 2965K 0.5270 0.5273 0.5268 0.5269 0.5260 0.5251 0.5242 0.5236 0.5226

3 2976K 0.5260 0.5264 0.5263 0.5260 0.5249 0.5243 0.5240 0.5228 0.5218

4 3007K 0.5234 0.5237 0.5235 0.5234 0.5221 0.5214 0.5205 0.5196 0.5186

5 2977K 0.5261 0.5265 0.5263 0.5263 0.5252 0.5243 0.5237 0.5228 0.5221

6 2980K 0.5255 0.5258 0.5256 0.5255 0.5244 0.5236 0.5226 0.5219 0.5209

7 3043K 0.5233 0.5237 0.5236 0.5236 0.5223 0.5214 0.5204 0.5197 0.5187

8 2964K 0.5263 0.5267 0.5266 0.5264 0.5255 0.5248 0.5242 0.5233 0.5223

9 2968K 0.5262 0.5266 0.5264 0.5265 0.5255 0.5245 0.5238 0.5230 0.5220

10 3038K 0.5229 0.5232 0.5230 0.5230 0.5217 0.5210 0.5200 0.5191 0.5182

11 3008K 0.5253 0.5257 0.5255 0.5255 0.5244 0.5236 0.5230 0.5219 0.5209

12 2973K 0.5271 0.5275 0.5273 0.5274 0.5262 0.5255 0.5249 0.5240 0.5229

13 3014K 0.5253 0.5256 0.5255 0.5255 0.5243 0.5234 0.5229 0.5218 0.5209

14 2992K 0.5260 0.5263 0.5263 0.5261 0.5250 0.5240 0.5234 0.5226 0.5214

15 3011K 0.5262 0.5266 0.5265 0.5264 0.5251 0.5241 0.5235 0.5226 0.5215

16 3036K 0.5237 0.5241 0.5240 0.5239 0.5228 0.5215 0.5209 0.5197 0.5187

17 2987K 0.5269 0.5273 0.5269 0.5269 0.5258 0.5250 0.5245 0.5235 0.5225

18 2979K 0.5270 0.5273 0.5271 0.5270 0.5258 0.5247 0.5243 0.5233 0.5224

19 3023K 0.5250 0.5255 0.5254 0.5252 0.5235 0.5224 0.5218 0.5207 0.5197

20 3009K 0.5254 0.5258 0.5256 0.5255 0.5240 0.5231 0.5222 0.5213 0.5202

21 3001K 0.5254 0.5257 0.5255 0.5255 0.5243 0.5233 0.5225 0.5215 0.5205

22 3014K 0.5251 0.5256 0.5254 0.5252 0.5238 0.5229 0.5224 0.5214 0.5201

23 2994K 0.5259 0.5262 0.5259 0.5260 0.5249 0.5241 0.5234 0.5222 0.5213

24 2988K 0.5264 0.5268 0.5265 0.5266 0.5254 0.5246 0.5241 0.5231 0.5221

25 2996K 0.5256 0.5259 0.5258 0.5259 0.5246 0.5239 0.5235 0.5222 0.5213



1 2975K 0.0000 0.0013 0.0013 0.0018 0.0018 0.0022 0.0028 0.0039 0.0051

2 2965K 0.0000 0.0012 0.0014 0.0019 0.0020 0.0029 0.0041 0.0048 0.0063

3 2976K 0.0000 0.0012 0.0015 0.0021 0.0025 0.0032 0.0036 0.0048 0.0062

4 3007K 0.0000 0.0012 0.0014 0.0021 0.0027 0.0032 0.0044 0.0054 0.0068

5 2977K 0.0000 0.0012 0.0011 0.0019 0.0020 0.0028 0.0036 0.0046 0.0057

6 2980K 0.0000 0.0013 0.0015 0.0020 0.0023 0.0031 0.0044 0.0054 0.0067

7 3043K 0.0000 0.0013 0.0013 0.0018 0.0021 0.0028 0.0041 0.0051 0.0063

8 2964K 0.0000 0.0012 0.0012 0.0017 0.0018 0.0026 0.0035 0.0047 0.0059

9 2968K 0.0000 0.0013 0.0014 0.0020 0.0020 0.0029 0.0040 0.0050 0.0062

10 3038K 0.0000 0.0013 0.0014 0.0019 0.0022 0.0029 0.0040 0.0053 0.0065

11 3008K 0.0000 0.0012 0.0013 0.0017 0.0021 0.0029 0.0038 0.0051 0.0063

12 2973K 0.0000 0.0012 0.0012 0.0017 0.0019 0.0025 0.0038 0.0047 0.0059

13 3014K 0.0000 0.0007 0.0007 0.0012 0.0018 0.0029 0.0041 0.0052 0.0065

14 2992K 0.0000 0.0008 0.0007 0.0013 0.0018 0.0030 0.0043 0.0051 0.0067

15 3011K 0.0000 0.0008 0.0007 0.0013 0.0021 0.0031 0.0046 0.0055 0.0070

16 3036K 0.0000 0.0007 0.0007 0.0012 0.0016 0.0032 0.0046 0.0056 0.0072

17 2987K 0.0000 0.0010 0.0010 0.0014 0.0020 0.0030 0.0044 0.0054 0.0068

18 2979K 0.0000 0.0009 0.0010 0.0015 0.0023 0.0037 0.0049 0.0062 0.0072

19 3023K 0.0000 0.0008 0.0009 0.0013 0.0026 0.0041 0.0055 0.0067 0.0079

20 3009K 0.0000 0.0006 0.0007 0.0012 0.0023 0.0036 0.0051 0.0064 0.0076

21 3001K 0.0000 0.0008 0.0009 0.0015 0.0022 0.0034 0.0050 0.0063 0.0074

22 3014K 0.0000 0.0008 0.0007 0.0014 0.0024 0.0035 0.0047 0.0060 0.0074

23 2994K 0.0000 0.0009 0.0009 0.0014 0.0018 0.0030 0.0045 0.0058 0.0068

24 2988K 0.0000 0.0007 0.0007 0.0012 0.0020 0.0030 0.0044 0.0055 0.0067

25 2996K 0.0000 0.0007 0.0008 0.0012 0.0019 0.0027 0.0040 0.0054 0.0066

Page 27


sT = T air = 105°C, I



1 2975K 3.136 3.170 3.178 3.184 3.207 3.221 3.227 3.212 3.206

2 2965K 3.098 3.171 3.179 3.185 3.204 3.217 3.221 3.216 3.217

3 2976K 3.206 3.195 3.203 3.207 3.225 3.238 3.241 3.234 3.234

4 3007K 3.155 3.169 3.175 3.175 3.195 3.208 3.212 3.208 3.205

5 2977K 3.150 3.193 3.201 3.206 3.230 3.245 3.251 3.245 3.243

6 2980K 3.157 3.191 3.199 3.205 3.227 3.237 3.244 3.239 3.231

7 3043K 3.070 3.098 3.115 3.120 3.140 3.147 3.149 3.139 3.138

8 2964K 3.112 3.173 3.179 3.182 3.197 3.211 3.216 3.225 3.219

9 2968K 3.201 3.192 3.202 3.209 3.232 3.249 3.255 3.253 3.260

10 3038K 3.141 3.161 3.165 3.165 3.177 3.183 3.193 3.184 3.186

11 3008K 3.147 3.180 3.186 3.188 3.204 3.217 3.222 3.229 3.224

12 2973K 3.133 3.190 3.197 3.202 3.223 3.237 3.240 3.238 3.235

13 3014K 3.138 3.171 3.178 3.181 3.197 3.210 3.220 3.212 3.207

14 2992K 3.136 3.164 3.177 3.185 3.207 3.222 3.236 3.230 3.232

15 3011K 3.136 3.150 3.160 3.165 3.185 3.199 3.211 3.214 3.209

16 3036K 3.214 3.178 3.185 3.186 3.200 3.211 3.221 3.216 3.216

17 2987K 3.127 3.178 3.184 3.184 3.197 3.208 3.218 3.209 3.203

18 2979K 3.152 3.182 3.189 3.194 3.214 3.226 3.237 3.221 3.224

19 3023K 3.133 3.204 3.214 3.220 3.241 3.254 3.266 3.263 3.261

20 3009K 3.187 3.175 3.184 3.192 3.213 3.228 3.242 3.240 3.245

21 3001K 3.139 3.202 3.210 3.216 3.238 3.251 3.264 3.264 3.260

22 3014K 3.161 3.209 3.216 3.222 3.244 3.265 3.269 3.272 3.264

23 2994K 3.150 3.184 3.190 3.195 3.213 3.226 3.238 3.239 3.232

24 2988K 3.076 3.151 3.160 3.165 3.183 3.195 3.207 3.201 3.204

25 2996K 3.157 3.144 3.155 3.145 3.178 3.189 3.193 3.192 3.192

Page 28

Company Information

Philips Lumileds is a leading provider of power LEDs for everyday lighting applications. The company's records for light output,efficacy and thermal management are direct results of the ongoing commitment to advancing solid-state lighting technology andenabling lighting solutions that are more environmentally friendly, help reduce CO2 emissions and reduce the need for power plantexpansion. Philips Lumileds LUXEON LEDs are enabling never before possible applications in outdoor lighting, shop lighting,

home lighting, digital imaging, display and automotive lighting.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,

Singapore and Penang, Malaysia. Founded in 1999, Philips Lumileds is the high flux LED technology leader and is dedicated tobridging the gap between solid-state technology and the lighting world. More information about the company's LUXEON LED

products and solid-state lighting technologies can be found at www.philipslumileds.com.

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