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General Information Moonlight reserves the right to change at any time and without prior warning the technical specication of any product in this catalogue. No part of this catalogue may be copied without a written authorisation of Moonlight. The luminaires in the catalogue are designed and patented by Moonlight. The secondary reector systems are patented by Bartenbach Lichtlabor and manufactured by Moonlight under the licience of Bartenbach Lichtlabor. Unless specially indicated, the luminaires are supplied without lamps. All dimensions are in millimetres. Voltages given refer to main frequency of 50/60 Hz. All electrical equipment is installed in accordance with IEC regulations. Moonlight lighting systems have been extensively developed to meet the exacting demands of Light Pollution requirements. The standard nishing of the products are specied in the product description. The products can also be nished in RAL colours on request subject to availability.
EN ISO 9001-2000 Moonlight has implemented a Quality Management System, which is essential to ensure continuous improvement of all aspects of its operations, organization, production process and customer service.
ENEC The xtures are KEMA tested and carry the ENEC (European Norms Electrical Certication) sign. ENEC titles the agreement on the use of a commonly agreed mark of conformity for luminaires and relevant components complying with European Standards. The purpose is to grant a common European mark on the basis of applicable European standards and to strive for elimination of existing special national conditions and national deviations, valid in the countries of the ENEC Signatories.
EN 60598-1 -2 The technical features of our xtures conform to regulations of EN60598-1-2. Our packing, installation instructions and delivery documents are labelled with the CE sign. GOST-R Moonlight xtures are in compliance with GOST-R (Russian Federation Standards)
Experience Innovation Moonlight is a pioneer in professional lighting specializing in xtures for interior and exterior architectural applications, with lighting development services including mechanical and electrical engineering resources, product development capabilities and design experience. Behind the aesthetic beauty, Moonlight xtures are advanced electrical components that ensure reliable operation and totally automated lighting systems. Using the latest innovative light sources to ensure a high degree of efciency, Moonlight has a reputation for integrity, reliability in lighting marketplace with exceptional quality, outstanding after sales service and advanced technology. For interior and exterior lighting applications Moonlight offers comprehensive product ranges with supporting services. Also our exibility and capability in manufacturing interior and exterior luminaires meets customer specications and architectural designs. Study For Research Moonlight Research & Development Department is a dynamic, growing centre, focused on the development of radical new technologies that span a diverse set of applications. Our team is comprised of engineering, manufacturing and quality professionals dedicated to creating innovative solutions for advanced technologies such as complex surface facet design. The Moonlight team focus on the complete development process, from design concept to low volume manufacturing runs, to designing advanced lighting systems, more accurate, and more functional than the products they are replacing. Moonlight technology, and the products which incorporate this technology, are improving lives and places around the world.
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Pole LuminairesIt is clear that exterior lighting makes a dramatic rst impression. Combining aesthetic detailing, die-cast aluminium production range provides innovative illumination for urban and residential areas. The poles are available with base plates and anchorage sets, also in ground buried and in different heights and diameters. Moonlight pole luminaires are resistant to high wind and offer considerable resistance to atmospheric agents. The poles are available in galvanized steel or aluminium with corrosion resistant die-cast aluminium arms and brackets etc.
Secondary Reector SystemsRequired eld of radiation Curved facetted systems are based on projector - mirror - technology, light concentrated from a primary reector is aimed to a mirror eld which reects the light according to lighting design demands. Reduced glare due to spot light redirection Systems providing required at angles of radiation in principle risk of producing glare. With spot light redirection, projector mirror systems reduce glare to minimum. By arranging facets with alternating curvature (concave and convex) smooth links between facets can be achieved and multiple reection and shading can be avoided. Technology of the future The facets with alternating curvature and concave curved facets provide innovative performance. Patented by
Housing Floodlight of corrosion resistant die-cast aluminium optical housing with stainless steel screws. Closed by a toughened glass and durable silicone rubber gaskets. Well designed die-cast aluminium control gear housing, resistant to heat sensitive integral electrical components. Aluminium canopy for secondary reector technology. Secondary reector is engineered for outdoor use. They have a special facetted surface with metallized chrome nickel suitable for external applications.
Optic a l Primary reector in pure anodized aluminium. Indirect lighting system for effective illumination eliminating excess light emission designed for discharge lamps. Asymmetrical illumination, achieved with a secondary reector (complex facets elds with mixed curvature) decomposing the light emitted by the primary reector. The primary reector part integrated into the oodlight radiates the narrow beam light on the secondary reector mirror eld xed above. The entire reector radiation of the primary reector is focused on the secondary reector screen above. Direct glare is therefore impossible and there is a controlled illumination with zero light pollution. The secondary reector screen is compound from several different convex and concave reecting facets. Due to the highly specular surface of the facets; the reected light is perfectly radiated in pre-dened angles of radiation. By arranging facets with alternating curvature (concave and convex) smooth l