Downlight ENCORE DL6 15W 2700K Version 1.08 E² Energy Saving Solutions GmbH Industriestrasse 11 D 69234 Dielheim Telephone: +49 (0) 6222 950 6301 Fax: +49 (0) 6222 950 6385 e mail: info@e2powersave.com Homepage: www.e2powersave.com
Contents List of abbreviations... II 1. General description... 1 1.1. Scope of supply... 1 1.2. Packaging... 1 1.3. Type identification... 1 1.4. Cutout dimensions:... 1 1.5. Installation dimensions... 2 1.6. Dimming... 2 1.7. Technical data... 3 1.8. Temperature reading point... 3 1.9. Connector terminal assignment... 3 2. Installationinstructions / General information... 4 2.1. Intended operation... 4 2.2. Protection against electrostatic discharge (ESD)... 5 2.3. Human exposure to electromagnetic fields... 5 2.4. Photobiological safety eye/skin protection... 6 2.5. Mechanical stress:... 6 2.6. Chemical resistance... 7 2.7. Thermal load... 7 2.8. Cleaning... 7 2.9. Viewing angle dependency with respect to white LEDs... 7 2.10. Environment... 8 2.11. Packaging, storage and transport... 8 3. Warranty and repairs... 8 3.1. Return Material Authorization (RMA):... 8 Declaration of conformity... 9 I
List of abbreviations CE EMVG EMC Kelvin (K) Lumen (lm) ESD RoHS WEEE Communauté Européenne. The CE conformity marking shows that the product is compliant with all applicable European directives. Law on the electromagnetic compatibility of equipment Electromagnetic compatibility of the product The colour temperature of a light source is the temperature that a material, such as a filament, has to have so that the its light being emitted has the same visual colour impression as the actual source of light. complete amount of radiant power emitted from a light source, which is evaluated by means of the spectral sensitivity of the human eye. Electrostatic discharge is a spark or disruptive discharge as result of a large difference of electrical potential within an electrically insulated material, causing a very short but high impulse of electrical current. The cause of the difference in electrical potential is normally due to a static electric charge. EU guideline limiting the use of certain hazardous substances in electrical and electronic devices (Abbreviation for: Restriction of Hazardous substances) EU directive to reduce an increasing amount of electronic scrap deriving from electric and electronic devices that are no long used. (Abbreviation for: Waste Electrical and Electronic Equipment II
1. General description 1.1. Scope of supply 1 pcs. Downlight, 2700K including non detachable cable (2000mm) 1 pcs. It is imperative to read this handbook before initial use of the unit! 1.2. Packaging The downlight is supplied in a specially made box. To remove the downlight, press down both of the fitting springs lightly and turn to the right until the stop is reached. The downlight may now be removed. The downlights are normally supplied in secondary packaging containing 20 units. 1.3. Type identification On both the downlight and on the secondary packaging, an identification plate and the serial number are indicated. To easily distinguish between colour temperature, we have introduced a colour code. Warm white White Cold white High CRI 2700K 4000 K 6500K 3400K 1.4. Cutout dimensions: The circular cutout should be within the range of 155 mm and 160 mm. 1
1.5. Installation dimensions 154,5 58,0 172,0 Ø140,0 Ø172,0 1.6. Dimming The downlight is principally dimmable. Seeing that commercially available dimmers differ from each other significantly, we suggest testing the dimmer provided in combination with our downlight before installation. 2
1.7. Technical data Supply voltage Power consumption Power consumption Frequency Dimmable Luminous flux in lumens Effectivity 230 VAC Max. 90 ma 15 W 50 / 60 Hz Yes Typical 1270 lm 85 lm/w Colour rendering CRI > 83 Colour temperature Fluorescent colour Average life expectancy 2700 K Warm white 40,000 h Protection rating IP 20 Beam angle 120 Photobiological safety eye/skin protection Distance < 0.71 m risk group 1, over risk group 0 Weight 605g Cooling system No special cooling system necessary, tc = max 70 C Operating temperature (ambient temperature) 20~+50 C Storage temperature 30~+80 C 1.8. Temperature reading point The life expectancy of the LEDs is highly dependent upon the ambient temperature. Do not expose the downlight to direct sunlight and do not install it above a heat source. Only install in a well ventilated area. The temperature reading point (tc) must not exceed 70 C. TC 1.9. Connector terminal assignment The wires are equipped with end sleeves. That means that only terminals that have been approved for end sleeves may be used for connection. 3
2. Installationinstructions / General information Installation must always be carried out by sufficiently qualified and trained personnel and according to the generally recognized codes of practice. Please do not fail to observe the applicable safety regulations. Only use devices in kitchens that indicate at a protection rating of at least IP64 Before opening the housing, please ensure that the power plug is not connected. Contact with live electrical parts can result in electrical shock. This can be deadly. The light is intended for fixed installation in a building. For this reason, separators with the following characteristics must be provided for. A switch or a circuit breaker should be provided for the building installation This must be arranged near the light and be easily accessible to the user. That this is a separator must be clearly indicated on the device. During installation, pay attention to the availability of sufficient air circulation. 2.1. Intended operation The device is designated for use in the following areas: Living, business and industrial areas, as well as small business environments Adequate ambient temperature during operation from 20 C to +50 C must be maintained. During storage or transport, the temperature may be between 30 C and +80 C. In the event of the formation of condensation during transport or storage, the device must be subject to an acclimatisation period of about 2 hours before start up of operation. The device is intended to be used in clean and dry environments. Operation may not take place if ambient conditions are subject to high levels of humidity or dust, risk of explosion or aggressive chemical influence. The position of operation is variable at the user s discretion. However, sufficient air circulation (convection cooling) must be ensured. 4
2.2. Protection against electrostatic discharge (ESD) Electronic products are sensitive to electrostatic discharge. Therefore, special regard must be made to maintaining an ESD protected environment. In a controlled manner, ESD protected workplaces dissipate electrostatic charges with a high level of ground contact resistance. This is achieved by means of antistatic bands and work surfaces, floor coverings, shoes, and clothing with conductive properties. The entire workplace environment must comply with applicable ESD standards. Failure to comply can lead to damage or destruction to the products. Frequently, damages due to ESD are only evident after a certain period of time. For this reason, it is frequent that products seem to function properly at first and then suddenly fail without any recognisable reason. Damages due to ESD shall be inherently excluded from the warranty. 2.3. Human exposure to electromagnetic fields Due to technical factors, all devices in which current flows produce electromagnetic fields. For a long time, the damages that these emissions caused to human health was considered controversial. In the meantime, it has been proven that electromagnetic fields above a certain threshold are hazardous to health. For this purpose, limits have meanwhile been set at a European wide level. Among other things, also for any type of illuminant and lighting. These norms to do not include EMC. They are safety standards and are therefore listed as part of the Directive on Low Voltage. We take these guidelines very seriously. Therefore, we have developed all of our products in such a way to fall far below these limits. Therefore, according to the latest scientific research, health hazards due to electromagnetic fields emitted from our products may be completely ruled out. 5
2.4. Photobiological safety eye/skin protection Depending on the intensity of emissions and the wavelength, optical radiation can be damaging to the eye and to the skin, resulting in irreversible burns. As is known, LEDs that are normally used for general lighting purposes do not emit light within the UV or the infrared range. It is for this reason that this wave length range, which poses a serious heath threat, can be completely ruled out for any of our products. However, LEDs have a very high energy density. This means that all radiant power is emitted by a very small chip. This type of high level of radiance can especially cause permanent damage to the eye. Possible damage or injury is dependent upon the viewing distance. The following applies: the closer you are to the source of radiation, the more dangerous it is. For this reason, legislation has imposed mandatory the classification of all products emitting optical radiation as risk class 4 (with the exception of LASER they have their own classifications) The risk is reduced proportional to increasing distance from the source. It is therefore sensible to define the risk evaluation using the viewing distance as a point of reference. In addition to setting limits with regard to wavelengths and categorisation into risk classes, legislative authorities have also imposed requirements on the marking of products corresponding to the risk classes and information that the user information must contain. Free group (RG0) Risk group 1 (RG 1) Risk group 2 (RG 2) Risk group 3 (RG 3) No danger through optical radiation. The also applies to continuous, unlimited used. safe under most conditions of use, except in the event of long term exposure with possible direct eye contact. No realistic optical danger in general, as long aversion responses are able to limit the duration of exposure or where long term exposures are unrealistic. Pose potential danger even in the event of short term exposure. In general, system safety requirements are essential. 2.5. Mechanical stress: Avoid and any and all mechanical stress to the PCBs. Electronic components react very delicately to drilling, milling, bending, sawing or similar mechanical stress. 6
2.6. Chemical resistance Our products must not be used in an environment subject to the use of aggressive chemicals. Upon request, we can coat our products with a protective finish before delivery. This finish protects the PCBs from condensation and increases resistance to ESD. 2.7. Thermal load The life expectancy of the LEDs is highly dependent upon the temperature. Exceeding the allowed operating temperature results in a decrease in life expectancy and premature failure. Furthermore, as the temperature rises, the brightness decreases. 2.8. Cleaning By means should chemical detergents be used for cleaning. Use of an ultrasonic bath is not recommended. We exclusively recommend the use of dusting brushes or soft cloths. 2.9. Viewing angle dependency with respect to white LEDs In the case of white LEDs, a blue LED chip is installed covered with yellowish fluorescent coating. One part of the blue light is let through and the other part is changed into the white light by means of the fluorescent coating. For measurements, selection and indications regarding the colour temperature, please always use the front of the device as a point of reference. The further away the light is through the phosphorus, the more the proportion of blue is absorbed. As a result, the colour temperature changes. If you look at the LED from a flat angle for instance, the shade of colour becomes warmer and warmer and becomes yellowish. The shorter the ray of light is away through the phosphorous- Colour temperature as indicated. The further away the ray of light is through the phosphorous, it changes to warm white (YELLOW) Phosphor LED-chip 7
2.10. Environment 2.10.1. RoHS All components produced by us comply with the RoHS directive. 2.10.2. Disposal (WEEE) In the case of our products, this has to do with electrical components that are permanently installed by a specialist and have to be collected, separated and disposed of according to the WEEE Directive. 2.11. Packaging, storage and transport 2.11.1. Packaging and transport: Our products are supplied in appropriate packaging. This protects against mechanical damages as well as electrostatic discharge (ESD). We recommend first removing the products from the packaging at the intended location of installation. Do not fail to read the chapter on the topic of ESD. 2.11.2. Storage The LED strips without adhesive tape are not subject to any limits with regard to a maximum storage period. If adhesive strips are applied, the period of storage should not exceed 12 months. Only store the products in an ESD secure environment. For ambient conditions concerning storage, please refer to the technical data of the respective product. 3. Warranty and repairs The devices are subject to strict quality control. Before leaving the production area, every device undergoes a burn in test that lasts several hours. The legal warranty provisions of the country of purchase shall apply. In the event of complaint, please first contact the retailer from whom you purchased the product In order to speed up the process, customer within the Republic of Germany can also deal with repair matters directly with the manufacturer www.e2powersave.com. Also, after the warranty has expired, our customer service shall be available to you. 3.1. Return Material Authorization (RMA): Before sending a unit back to us, please request in any case an RMA number via e-mail (info@e2powersave.com). Devices without an RMA number will not be accepted. 8
Declaration of conformity The manufacturer E² Energy Saving Solutions GmbH Industriestrasse 11 D 69234 Dielheim declares herewith that the downlight with the product description: DL6 15W 2700 has fulfilled the requirements of the following directives and standards. Description EMC guideline Current directive 2004/108/EG Low Voltage Directive 2006/95/EG RoHS 2011/65/EG Safety EN 62031:2013 EN 62471:2009 EN 62493:2010 EN 60598 1:2009 EN 60598 2 2:2012 Emitted interference EN 55015:2009 Harmonic currents EN 61000 3 2:2009 Klasse D Interference immunity EN 61547:2010 Voltage fluctuations EN 61000 4 11:2005 Interference immunity to ESD EN 61000 4 2:2009 Interference immunity to high frequency magnetic Fields EN 61000 4 3:2010 Interference immunity to transient bursts EN 61000 4 4:2010 Interference immunity to surge voltage EN 61000 4 5:2006 Interference immunity to conducted disturbances EN 61000 4 6:2009 Störfestigkeit gegen Magnetfelder EN 61000 4 8:2010 Date Signature 04 10 2012 b. o. Dipl. Ing. Frank Ullmann (umic.eu) 9