ELLA ID ELLA ID High CRI, High lm/w OptoDrive LED-module
Page 2 of 24 Pages for reference: Pages for reference:... 2 Introduction... 3 Short form Characteristics... 4 Wiring diagram:... 6 Accessories to be built in (light fixture)... 7 Article number structure... 8 Dimensions LED Module:... 9 Parameters of the Lens system... 10 Article number structure... 11 Parameters of the light output... 12 Electro Optical data... 15 Binning and Labeling... 16 Binning structure graphical representation IEC 1931... 17 McAdam structure graphical representation IEC 1976... 18 Binning and Labeling... 19 Measurement Control... 20 Lifetime (Calculated)... 21 Test and Performance... 22 Precautions for use... 23
Page 3 of 24 Introduction Applications The LED module and light engine is named Ella and it is a design for light fittings and luminaires aiming for various areas. It has been designed in order to meet the demands on high performance optical solutions in both light emitting and in colour rendering. Mechanically it is constructed with our package design Ella. ID design ID stands for integrated driver, all driver and dimmer components are built in and operates between 12-36VDC with an efficiency above 90%. It has a standard plug in connector that fits all different ID designs as well as accessories for dimming, communication, active cooling etc. Integrated driver The advantage with a driver that has been built in is the: Lifetime Connected to the heatsink in a controlled environment Dimming Dimming via PWM directly connected to the LED engine Size Small and no extra boxes Light output The colour stability is of high importance in order to ensure that the installations have a uniform light output. Parameters such as binning, lifetime and thermal control are vital for good results. Technical attributes Energy saving and a high lumen output High Colour Rendering Uniform Colour temperature Controlled lifetime Simple integration
Page 4 of 24 Short form Characteristics Mechanical Board dimensions: Assembly holes: Wire Connector: Height: 120 mm Ø 2 x 3.8 mm PHR-3 or similar 8 mm Electrical Number of LED s: 30 Power supply 24-36VDC LED current Input Voltage Power: Input Current: Module current: Power factor: Total Harmonic Distortion: Over temp protection: Efficiency Light CCT: CRI: Light output: SDCM (Mac Adam) Environmental operation conditions: Temperature range: -40 C to 65 C (Absolute maximum temp Tc 65 C) Relative Humidity: 10-75% Ambient air pressure: 500-1060 HPa
Page 5 of 24 Dimming Signal: PWM high level: 4-7V PWM low level: 0-0.5V PWM frequency 1 : 100-20 khz Efficiency: >90 Reversed polarity protection: Yes Transient protection: Yes Overvoltage protection Dimming signal: Yes Dim incoming: LED light output: No dim input: Dimlight (all versions except DALI)
Page 6 of 24 Wiring diagram: See also separate wiring diagram documentation.
Page 7 of 24 Accessories to be built in (light fixture) Dimmer varieties: Dali Pulse Switch 0-10V The dimmers are for digital dimming and can be set up in a network. The dimmers work for all types of Optodrive modules with a built-in driver. More detailed information can be found in a separate datasheet under accessories at www.optodrive.se
Page 8 of 24 Article number structure See separate documentation
Page 9 of 24 Dimensions LED Module: Measurements given in mm
Page 10 of 24 Parameters of the Lens system The light parameters are according to the following: Version Viewing Angle FWHM Angle Ella Standard 120 ±60
Page 11 of 24 Article number structure Optodrive Article Number consists of two parts: - 1 st part: Module Number - 2 nd part: Bin Code or Rank Article number: Ella: Module name ID: External drive P: Power (Watt) V: ma that the module are binned at. n: Amount of LEDs 8: CRI Yy: CCT 27 =2700K, 30 =3000K, 40 =4000K N: Viewing angle code Article name Module name P. supply Power Voltage LED CRI CCT Lens Lumen min Ella ID.10.24-36.30.827-NN Ella ID 10 24-36V 30 80 2700 - Ella ID.10.24-36.30.830-NN Ella ID 10 24-36V 30 80 3000 - Ella ID.10.24-36.30.840-NN Ella ID 10 24-36V 30 80 4000 - Ella ID.10.24-36.30.927-NN Ella ID 10 24-36V 30 90 2700 - Ella ID.10.24-36.30.930-NN Ella ID 10 24-36V 30 90 3000 - Ella ID.10.24-36.30.940-NN Ella ID 10 24-36V 30 90 4000 -
Page 12 of 24 Parameters of the light output White Electro-Optical characteristics LED at IF=700mA, TA=25ºC Ella ID.10.24-36.30.85y-NN Parameter Rank / Binning Symbol Value Unit Min Typ Max Luminous Flux T5 rank(1) ФV 860 870 890 lm U0 rank(1) ФV 891 900 920 lm U7 rank(1) ФV 921 1000 1020 lm Correlated Colour B* rank(2) CCT 5300 6000 K Temperature CRI Ra - 80 - Ra Power Po 9.5 10.0 10.5 W Thermal resistance RθJ-C 3.5 ºC /W (1)See detailed information in chapter Luminous Flux Bin (2)See detailed information in chapter Binning structure graphical representation Colour Spectrum White R e l a t i v e S p e c t r a l P o w e r D i s t r i b u t i o n 1.0 0.8 0.6 0.4 0.2 S ta n d a rd e y e re s p o n s e c u rv e 0.0 300 400 500 600 700 800 900 W a v e l e n g t h ( n m )
Page 13 of 24 Neutral White Electro-Optical characteristics, TA=25ºC Ella ID.10.24-36.30.8yy-NN Parameter Symbol Value Unit Min Typ Max Luminous Flux T5 rank (1) ФV 860 870 890 lm U0 rank (1) ФV 891 900 920 lm Correlated Colour Temperature E * (2) CCT 3700 4200 K D * (2) CCT 4200 4700 K CRI Ra - 85 - Ra Power Po 9.5 10.0 10.5 W (1)See detailed information in chapter Luminous Flux Bin (2)See detailed information in chapter Binning structure graphical representation Colour Spectrum Neutral White 1.0 Relative Spectral Power 0.8 0.6 0.2 0.0 300 400 500 600 700 800 Wavelength
Page 14 of 24 Warm White Electro-Optical characteristics TA=25ºC Ella ID.10.24-36.30.9yy-NN Parameter Symbol Value Unit Min Typ Max Luminous Flux T5 rank (1) ФV 860 870 890 lm U0 rank (1) ФV 891 900 920 lm Correlated Colour Temperature H * (2) CCT 2600 2750 2900 K G * (2) CCT 2900 3100 3200 K CRI Ra - 93 - Ra Power Po 3.6 4.05 4.5 W (1)See detailed information in chapter Luminous Flux Bin (2)See detailed information in chapter Binning structure graphical representation Colour Spectrum Warm White 1.0 Relative Spectral Power 0.8 0.6 0.2 0.0 300 400 500 600 700 800 Wavelength
Page 15 of 24 Electro Optical data Temperature Characteristics Performance vs. Temperature ( C) 120% 100% 80% 60% 40% 20% 0% 25 35 45 55 65 Decrease in performance Consider the thermal capabilities of where the LED module is to be fitted. The temperature is an important factor for light output as well as for long time light output degradation. Thermal information The thermal area has to be properly connected to an even and fine surface of a heat sink. Without this arrangement the unit will be overheated and will not be able to survive. Maximum Temperature Secure the temperature in your application not to exceed 65 C. Read more in the section on how to measure temperatures.
Page 16 of 24 Binning and Labeling Short form letters for colours Colour Code W S N B G R A Colour White Neutral White Warm White Blue Green Red Amber Luminous Flux Bins pro LED Bin Code Luminous Flux [lm] S S5 28.5 ~ 30.0 T T0 30.0 ~ 31.5 T5 32.0 ~ 33.0 U U0 33.0 ~ 34.5 U7 35.0 ~ 36.5 V V5 37.0 ~ 38.5
Page 17 of 24 Binning structure graphical representation IEC 1931 * Note that the Blue area is Energy Star Rank
Page 18 of 24 McAdam structure graphical representation IEC 1976 Note that the bin code from the top is transferred from IEC 1931 to IEC 1976 on the two McAdam graphs above.
Page 19 of 24 Binning and Labeling Information regarding the article number and structures on modules: Product Unique Identity Type Article No. Ella ID ID.10.24-36.30.x27-NN 2700K Warm White 103141 Ella ID ID.10.24-36.30.x30-NN 3000K Warm White 103129 Ella ID ID.10.24-36.30.x40-NN 4000KNeutral White 103142
Page 20 of 24 Measurement Control The recommended maximum value is 65 C on Tc or measuring point. If this value is exceeded we cannot guarantee the function and the lifetime of the product. The purpose of the measurement is to control the Junction (Tj) temperature of the LED and also in order to control the performance on the complete setup. By measuring the junction temperature (Tj) the average lifetime of the product is known. The thermal connection is measured in temperature vs. Power. Measurement points When the measurement takes place you verify that the temperature on the marked measurement points are satisfying. Pending on the result you know what lifetime to expect from the module. Measurement points TC This step will be implemented after the heat sink has been connected properly!
Page 21 of 24 Lifetime (Calculated) The lifetime is calculated at the maximum temperature recommended at the Tc (measuring point). It is important not to exceed this recommendation; you find more information under the chapter measurement control. Unit Tc Maximum 50% degradation L50 30% degradation L70 Ella (10W) 65 C >100 000 hours 50 000 Hours
Page 22 of 24 Test and Performance EMC (Emission and Immunity) The product has been tested and meets the demands perfectly according to the following standards: Emission: SS-EN55015:2007 Immunity: SS-EN 61547:1996 + A1:2001, EN61000-4-2, -4, -6 Test Performed Environmental Standard Emission Conducted disturbance SS-EN 55015:2007 Emission Radiated disturbance SS-EN 55015:2007 Immunity SS-EN61547, A1:2001 Electrostatic discharge ESD EN 61000-4-2:1995 Immunity SS-EN61547, A1:2001 Fast Transients EN 61000-4-4:1995 Immunity SS-EN61547, A1:2001 Induced radio frequency field EN 61000-4-6:1995 Safety of Laser products The product meets the demands of safety According to IEC 60825-1. Safety of Laser products and it is identified as a Laser Product Class 1. Test Performed Environmental Standard IEC 60825-1 Safety of laser products IEC 60825-1:1993 + A1:1997 + A2:2001 We are at your service if you have any furthermore questions or require more detailed information.
Page 23 of 24 Precautions for use This device should not be used in any type of fluids such as water, oil, organic solvent etc. When cleaning is required, use only water together with mild soap on the outside of the lens. Cleaning inside of the LED module is strictly prohibited. The appearance and specifications of the product may be modified for improvement without notice. Long time exposure of sunlight or occasional UV exposure will cause lens discoloration. Opening of the LED module is prohibited due to risk of EMC, dust, grease and other exposures that will damage it. The LED Module should always be mounted to a proper heat sink before it s connected with its proper leads. This is due to electrical hazard. ROHS Compliant All our LED modules are meeting the Restriction of Hazardous Substances (RoHS)! There has been a growing consensus that Lead Free Systems should increase for the safety of our environment. It is a very serious problem that lead and other harmful materials are being used in commercial and industrial products, causing more and more environmental problems. This has led to regulations such as RoHS (Restriction of the use of certain Hazardous Substances) from the EU and the Japan Ministry of Trade and Industry (MITI). All LED module makers providing products to these countries should comply with these restrictions. In order to meet the RoHS regulation, Optoga is strictly implementing a ban on lead and other hazardous materials in its products. This is in compliance with our responsibilities as good corporate citizens. Design for Environment: According to the EU-directive 2002/95/EC (RoHS) the following substances must not be used in this product Lead (Pb) alloys Mercury (Hg) Cadmium (Cd) Chromium (6+) compounds
Do you want to know more about benefits of OptoDrive LED? Read more about OptoDrive at www.optodrive.se. You can contact us via info@optoga.com. Obviously, you can also call us on +46 (0)589 490 950. Optoga AB Optoga was founded in November 2004 in Arboga, Sweden and has many years of experience in electronics design. The company developes and supplies LEDs and LED-module solutions for the lighting industry, vehicle manufacturers and electronics companies. With the OptoDrive LED-module, Optoga has taken the initiative to replace strip lights, incandescent and halogen bulbs with LED-based sources. Köpingsvägen 4 SE-732 31 Arboga SWEDEN Tel +46 (0) 589 490 950 Fax +46 (0) 589 197 80 info@optoga.com www.optoga.com Copyright 2016 Optoga AB. All rights reserved.