GE Lighting Infusion DLM Module DATA SHEET True ambient white lighting solution Product information The Infusion DLM (Downlight Module) range is a versatile solution suitable for general lighting in retail and commercial office environments. Infusion DLM module delivers high quality ambient lighting with outstanding efficacy and colour rendering (CRI>90). The availability of lumen packages approaching 4000lm means it is also ideal for high ceiling applications including shopping malls. Furthermore, in common with all GE Infusion modules, it combines all these qualities with twist/fit ease of replacement, outstanding reliability and low energy use. As an LED system, Infusion is also inherently more sustainable than other lighting technologies, enabling significant reductions in energy consumption. By investing in Infusion technology today, upgrades to luminaires are made possible in the future which will be of great benefit as energy costs rise, LED costs fall and efficacy continues to increase. The Infusion LED solution maintains incredibly consistent color quality from module to module as low as 2-MacAdam ellipse consistency. The socketable system design ensures consistent thermal performance, and this in turn means that color consistency can be easily translated through to the luminaire. Applications Retail Offices Education Healthcare Hospitality Features & benefits Color center point stabilizes within 1000 hours and stays in a 2 step ellipse shift up to 3000 hours BSY+R LED technology with built in color mixing chamber 90 degree beam angle aesthetic design with white diffuser One socket for all retail and office applications Five lumen packages ranging from 1000lm up to 4000lm Four colour temperatures (2700K, 3000K, 3500K and 4000K) >90 CRI across range with extremely high R9 Efficacy up to 89LPW Uses remote driver 5 years warranty IEC standards IEC62471: Photobiological safety of lamps and lamp systems. IEC62031: LED modules for general lighting safety specification.
Specification summary DLM Module Product Code Product Description Body Colour CRI [Ra] CCT [K] Color Variation (MacAdam Ellipse) Rated Life (L70) [h] Beam Angle [ ] Rated Watt [W] Rated Lumens [lm] Drive Current [ma] EEC Energy consumption (kwh/1000h) Infusion DLM 1000 Series 99607 DLM1000/927 White 90+ 2700 < 4-steps 50.000 90 99608 DLM1000/930 White 90+ 3000 < 4-steps 50.000 90 99609 DLM1000/935 White 90+ 3500 < 4-steps 50.000 90 99610 DLM1000/940 White 90+ 4000 < 4-steps 50.000 90 Infusion DLM 1500 Series 99611 DLM1500/927 White 90+ 2700 < 4-steps 50.000 90 99612 DLM1500/930 White 90+ 3000 < 4-steps 50.000 90 99613 DLM1500/935 White 90+ 3500 < 4-steps 50.000 90 99614 DLM1500/940 White 90+ 4000 < 4-steps 50.000 90 Infusion DLM 2000 Series 99615 DLM2000/927 White 90+ 2700 < 4-steps 50.000 90 99616 DLM2000/930 White 90+ 3000 < 4-steps 50.000 90 99617 DLM2000/935 White 90+ 3500 < 4-steps 50.000 90 99618 DLM2000/940 White 90+ 4000 < 4-steps 50.000 90 Infusion DLM 3000 Series 99619 DLM3000/927 White 90+ 2700 < 4-steps 50.000 90 99620 DLM3000/930 White 90+ 3000 < 4-steps 50.000 90 99621 DLM3000/935 White 90+ 3500 < 4-steps 50.000 90 99622 DLM3000/940 White 90+ 4000 < 4-steps 50.000 90 Infusion DLM 4000 Series 99623 DLM4000/927 White 90+ 2700 < 4-steps 50.000 90 99624 DLM4000/930 White 90+ 3000 < 4-steps 50.000 90 99625 DLM4000/935 White 90+ 3500 < 4-steps 50.000 90 99626 DLM4000/940 White 90+ 4000 < 4-steps 50.000 90 Holder Product Code Product Description Body Colour Lead Insulation Lead Length [mm] 66233 MHOLDERW/PVC600 White PVC 600 66232 MHOLDERB/PVC600 Black PVC 600 97276 MHOLDERW/LSOH600 White LSOH 600 97277 MHOLDERB/LSOH600 Black LSOH 600 61450 MACC07HOLDERW White - n/a 78835 MACC07HOLDERB Black - n/a
Spectral performance Spectral Distribution colour 927 Spectral Distribution colour 930 4 step Spectral Distribution colour 935 Spectral Distribution colour 940 3000 hr 96 CCT R1 R2 R3 R4 R5 R6 R7 R8 R9 R10 R11 R12 R13 R14 927 95 94 82 88 95 94 92 94 90 74 79 86 75 96 87 930 97 95 84 92 98 94 95 92 95 81 82 91 74 99 88 935 97 95 84 92 98 94 95 90 95 81 82 91 74 99 88 940 98 95 85 95 94 91 96 97 91 81 93 65 97 90 88 Colour maintenance Color center point stabilizes within 1,000 hours and stays in a 2 step ellipse shift up to 3,000 hours. 100 98 500 1000 1500 2000 2500 3000 3500 Hours Lumen maintenance L70 at 50,000 hours based on LM-80 testing of LED chips to 10,000 hours and modules to 6,000 hours.* 0.408 0.406 CCy 0.404 0.402 0.400 0.398 2STEP ellipse t=0 t=1000 t=3000 0.396 0.394 0.432 0.434 0.436 0.438 0.440 0.442 CCx Unless otherwise stated, colour maintenance data is based on measurements on production modules with colour 930 at nominal driver current and T c=65 C. Colour results may vary depending on temperature, application, and drive current. CRI maintenance Very stable CRI across all colour options. 100 98 L70 50,000hr Prediction (TM21) Actual Average (T C=65 C, Nominal Drive Current) 1,000 10,000 Burn Time [h] 100,000 Unless otherwise stated, Lumen maintenance data is based on measurements on production modules with colour 930 at nominal driver current and T c=65 C. Lumen results may vary depending on temperature, application, and drive current. *The product is designed to meet L85 50.000 hours. The verification measurements and test are under process. 96 94 92 90 88 500 1000 1500 2000 2500 3000 3500 Hours Unless otherwise stated, CRI maintenance data is based on measurements on production modules with colour 930 at nominal driver current and T c=65 C. CRI results may vary depending on temperature, application, and drive current.
Photometric Data Infusion TM DLM M1000 1.00 1.965 450 90 cd 180 cd 270 cd 360 cd 450 cd 2.00 3.931 113 3.00 5.862 50 4.00 7.862 28 5.00 9.827 18 Infusion TM DLM M1500 1.00 1.965 670 134 cd 268 cd 402 cd 536 cd 670 cd 2.00 3.931 168 3.00 5.896 74 4.00 7.862 42 5.00 9.827 27 Infusion TM DLM M2000 1.00 1.965 910 182 cd 364 cd 546 cd 728 cd 910 cd 2.00 3.931 228 3.00 5.896 101 4.00 7.862 57 5.00 9.827 36 Infusion TM DLM M3000 1.00 1.965 1380 276 cd 552 cd 828 cd 1104 cd 1380 cd 2.00 3.931 345 3.00 5.896 153 4.00 7.862 86 5.00 9.827 55 Infusion TM DLM M4000 1.00 1.965 1800 360 cd 720 cd 1080 cd 1440 cd 1800 cd 2.00 3.931 450 3.00 5.896 200 4.00 7.862 113 5.00 9.827 72 Photometric data of DLM modules shown is for 927, 930, 935 and 940 colour at max. drive current.
Dimensions DLM Module (14,7 ) 2,630 66,8,385±,005 9,78±0,13 See Note 1,574 40 1,714 43,5 2,746 +,005 -,010 69,75 +0,13-0,25 2,911 73,94 Note: height from base to top of lock tab as shown represents compressed distance when mated to holder/collar accessory. This compression is required to make appropriate mechanical, electrical, and thermal connections. This dimension and tolerance is driven by holder/collar. Holder Thermal interface region (caution screw holes on this region may damage thermal pad and/or effect thermal performance) 17,750 ± 0,125 ( 39) Keep out region for future mounting/connection enhancements 73,33 ± 0,125 Lumen performance with temperature The operating temperature of the module will also impact on lumen output. Claimed lumens assumes a steady-state T C reading of 65 C. Modules operating cooler than this will have higher lumen output, while modules operating at a higher temperature will show a reduction in lumens, as illustrated in the graph below. T C vs % relative Lumens
Designing a heat sink The necessary size of the heat sink will depend on the temperature difference between T C and ambient temperature, total input power, and material properties of the heat sink. To ensure that adequate heat is dissipated from the light engine, heat sink design must take into account the input power to the LED module as well as effects from nearby heat sources. Assuming that ambient temperature is 25 C, T C is 65 C, the heat sink is in a free-air condition, and the module is run at nominal current (necessary to achieve the rated lumens) the minimum Rθ hs-a needed of the different module systems is published in the table below. A smaller Rθ hs-a will improve thermal performance. There must be a clear path for heat transfer from the heat source to the environment. The heat from the LED module travels via conduction through the heat sink to the heat fins, and then to the ambient environment through convection (and to a lesser degree through radiation). Each interface in the system will add to the overall resistance of the system so good thermal conductivity is important at every point of the thermal path. If the heat sink is manufactured in multiple pieces, care must be taken to manage the impact of each interface. Module Series Lumen Value Required Heat Sink Rθ [K/W] 1000 2.7 1500 1.7 2000 1.3 3000 0.75 4000 Notes: Rθ hs-a can generally be reduced by adding heat fin surface area or introducing forced convection via active cooling methods. For example, applying a thin layer of thermal grease between the interfaces or applying significant pressure between components may improve thermal conductivity. The convection heat transfer will occur at the surface of the heat sink. Generally, more surface area will dissipate more heat to the environment. Electronic control gear Infusion TM LED modules are designed to run from external SELV-rated electronic control gear (ECG) providing constant current input. DLM1000/DLM1500/DLM2000 series are rated for max 700mA operation DLM3000/DLM4000 series are rated for max 1400mA operation A wide range of commercially available LED drivers has been qualified for use with Infusion TM modules including dimming drivers that operate on DALI, DMX, 0-10V, leading edge and trailing edge systems; static drivers; and drivers with auxiliary active cooling outputs. The approved driver list is updated on a regular basis. Please contact your GE representative for details. For more information visit www.gelighting.com www.gelighting.com and General Electric are both registered trademarks of the General Electric Company GE Lighting is constantly developing and improving its products. For this reason, all product descriptions in this brochure are intended as a general guide, and we may change specifications from time to time in the interest of product development, without prior notification or public announcement. All descriptions in this publication present only general particulars of the goods to which they refer and shall not form part of any contract. Data in this guide has been obtained in controlled experimental conditions. However, GE Lighting cannot accept any liability arising from the reliance on such data to the extent permitted. Infusion DLM Module Data Sheet October 2013