WE-EF LIGHTING VFL2 Australia/NZ Edition 21
Design and Engineering The most important element in the design process is the development of luminaires that encompass timeless design; in other words, design that best reflects their enduring qualities. In addition, state-of-the-art engineering brings with it the highest standards with regard to environmentally-friendly materials and processes, i.e., high IP ratings, excellent thermal management and innovative optical systems. The development of high-end, efficient reflectors and lenses is one of the core competencies of WE-EF. This means compliance with international lighting and safety norms, while meeting the criteria of such organisations as the Dark Sky Society. Continual investment in research and development is the basic condition for meeting these requirements. WE-EF innovations, such as IOS Innovative Optical Systems, CTA Cool Touch Adaptor, ASC Anti Slip Coating and OLC One LED Concept, are just some examples of the company s continuing investment in technology. Production 'Made by WE-EF' is more than just an expression; the high quality level of in-house production processes includes: Tooling for HPDC and injection moulding Aluminium high-pressure die-casting CNC machining Powdercoating Pole manufacturing Assembly Through continual investment in tooling and production processes, and ongoing training programmes for WE-EF employees, the highest standards of quality are achieved. In exterior lighting, the corrosion-resistance qualities of a product are crucial to their reliability and longevity. Durable and reliable corrosion protection can only be achieved when product development and production processes are considered together. Years of research, development and practical testing as well as experience in some of the most extreme climates on Earth have resulted in WE-EF s unique CE corrosion protection system. This system encompasses five critical elements: Substrate; Conversion coating; Powdercoating; PCS hardware (polymer coated stainless steel); Process control. Application Real and sustainable cost and energy savings can only be achieved through professional project planning, including the application of the latest optical systems and light sources. In streetlighting applications, for example, this means minimising the number of luminaires required by optimising the efficiency of the optical system, while at the same time limiting glare in line with international standards. In short, reduced installation and maintenance costs, less CO 2 and improved quality of light. Recycling More than per cent of a WE-EF luminaire can be recycled. The main component, a marine-grade aluminium substrate, is refined from recycled aluminium. This recycled aluminium is also an 'energy storer'. Only five per cent of the original energy needed to process bauxite into aluminium is required for recycling. In other words, per cent of the original energy input is also recycled.
VFL2 Post mounted luminaire. 'Side' and 'forward throw' distribution; asymmetric and pedestrian/bicycle lane distribution. IP. Class I. IK8. Marine-grade, die-cast aluminium alloy. CE superior corrosion protection including PCS hardware. Powdercoat finish in black RAL 4, white aluminium RAL, grey aluminium RAL 7 or white RAL 1. Silicone CCG Controlled Compression Gasket. PMMA RFC Reflection Free Contour technology. The luminaire is factory-sealed and does not need to be opened during installation. Light source: LED 4 K (for K refer to www.we-ef.com.au) Available distributions: [P] [S] [S] [S7] [A] [R] Integral EC electronic converter. Factory-installed LED circuit board. Removable LED boards for upgrading. CAD-optimised OLC One LED Concept optics for superior illumination and glare control. Advanced thermal management (NTC) on request. Integrated surge protection1/1 kv. Mounting brackets to be ordered separately.
[P] [S] [S] [S7] [A] [R] IOS Innovative Optical System: [P] Pedestrian/bicycle lane distribution [S] Streetlighting distribution [S] Streetlighting distribution [S7] Streetlighting distribution [A]Asymmetric 'forward throw' distribution [R]Rectangular 'forward throw' distribution [P] 4 K lm* Factor** kg VFL2 12 LED 12W/ ma 18-11 112.7 4.7 VFL2 12 LED 24W/7 ma 18-1 27 1. 4.7 114 [S] VFL2 12 LED 12W/ ma 18-1481 112.7 4.7 VFL2 12 LED 24W/7 ma 18-148 27 1. 4.7 21 47 ø 7 x 8 [S] 1 VFL2 12 LED 12W/ ma 18-148 112.7 4.7 VFL2 12 LED 24W/7 ma 18-1487 27 1. 4.7 [S7] VFL2 12 LED 12W/ ma 18-148 112.7 4.7 VFL2 12 LED 24W / 7 ma 18-141 27 1. 4.7 [A] VFL2 12 LED 12W/ ma 18-147 112.7 4.7 VFL2 12 LED 24W/7 ma 18-14 27 1. 4.7 [R] 12 LED 12W/ ma 18-14 112.7 4.7 12 LED 24W/7 ma 18-14 27 1. 4.7 Wall/Pole brackets RV Series D x L H/H1 C kg for VFL2 18-7 RV Wall bracket 2/1 18 2. 18-8 RV2-7 Pole bracket ø 7 x 1 147 4.8 18-82 RV Pole bracket 1 1.7 1 C C C C ø 8 H H1 H ø 12 Wall bracket RV Pole bracket RV D x L Pole bracket RV2 ø 7-24 * Nominal lumen output based on LED manufacturers data at 8 C T j. For rated lumens at 2 C T q and latest data refer to www.we-ef.com.au. ** Multiplier for Isolux value.
VFL2 FEATURES IP classification: IP Electrical protection: Class I Impact protection: IK8 Housing: Marine-grade, die-cast aluminium alloy, CE superior corrosion protection Hardware: PCS hardware (polymer coated stainless steel) Cover: PMMA RFC Reflection Free Contour technology Gasket: CCG Controlled Compression Gasket technology ECG: Integrated surge protection 1/1 kv LED: 12 LEDs ( K or 4 K) Optic: OLC One LED Concept technology with [P] [S] [S] [S7] [A] [R] beam distributions Heat sink: Integrated Installation: Direct mount ø 7 x 8 mm [P] Pedestrian/bicycle lane distribution. [S7] Streetlighting distribution. [S] Streetlighting distribution. [A] Asymmetric forward throw distribution for lighting public spaces. Maximum angle of peak intensity -. Rearward spill limited to an angle of 1. [S] Streetlighting distribution including intersections and public spaces. [R] Rectangular forward throw distribution for lighting public spaces and car parks. Maximum angle of peak intensity (side and forward) approximately under. Rearward spill limited to an angle of 1. The OLC technology is the ideal method for achieving a uniform and energy saving lighting solution, providing highest safety and visual comfort, in ensuring that the failure of individual LEDs does not lead to an adverse affect in the lighting. RFC technology engineered with a UV-stabilised PMMA panel which has a contoured surface, contoured in a way that imitates the shape of the LED lens; the goal is to minimise the loss of light that normally occurs due to internal reflection. Using either a 1-1 V or DALI interface with electronic converter, the light output and energy usage of the individual luminaires can be controlled. All components of the luminaire are engineered for reliability and longevity.
PCS coated fasteners made from austinetic stainless steel reduce the risk of galvanic corrosion. The VFL2 is fitted with a 1/1 kv surge protection. If the surge protector has been triggered by an adverse event, the luminaire is automatically disconnected from the mains. Important: For comprehensive protection of the luminaire against lightning and electrical surges, we generally recommend primary (Type 1) and secondary (Type 2) surge arrestors be installed into the switch board. Outstanding and long lasting anticorrosion properties can only be achieved by a comprehensive, integrated approach. WE-EF s unique CE system encompasses five critical elements: Substrate; Conversion coating; Powdercoating; PCS hardware (polymer coated stainless steel); Process control.
[P] Pedestrian/bicycle lane distribution. Spacing to 7 times the mounting height. Typical mounting height to m. 2 1 2 1, lx m 12 1 18 2 1 2 1,,2 lx m 12 1 18 [S] Streetlighting distribution. Spacing to. times the mounting height. Typical mounting height to m. 2 1 2 1, lx m 12 1 18 [A] Asymmetric 'forward throw' distribution for lighting public spaces. Maximum angle of peak intensity -. Rearward spill limited to an angle of 1. Typical mounting height 4 m to 8 m. 2 1 2 1,,2 lx m 12 1 18 [S] Streetlighting distribution including intersections and public spaces. Spacing to. times the mounting height; Ti < 1 per cent. Typical mounting height to 1 m. 2 1 2 1,,2 lx m 12 1 18 [R] Rectangular 'forward throw' distribution for lighting public spaces and car parks. Maximum angle of peak intensity (side and forward) approximately under. Rearward spill limited to an angle of 1. Typical mounting height 4 to 8 m. [S7] Streetlighting distribution. Spacing 7 to times the mounting height; Ti < 1 per cent. Typical mounting height to m. 2 1 2 1,,2 lx m 12 1 18
WE-EF LIGHTING Pty Ltd /1 Downard Street Braeside, Victoria 1 Australia Tel +1 887 444 Fax +1 887 4 www.we-ef.com.au VFL2 Australian Edition Copyright WE-EF 21 Technical specifications are subject to change