WE-EF LEUCHTEN Post Mounted Luminaire

VFL5202015

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 devel-

opment 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

Powder Coating

Pole manufacturing

Assembly

Through continual investment in tooling, production processes and the ongoing

education of our employees, we are able to achieve the highest standards of quality.

In exterior lighting, the corrosion resistance qualities of a product are important for their

reliability and longevity. A durable and reliable corrosion protection can only be achieved

when Product Development and the Production Processes are considered together.

Years of research, development and practical testing and experience in some of the

harshest climates on earth has resulted in WE-EF’s unique 5CE corrosion protection sys-

tem. It encompasses five critical elements; Material, Conversion Coating, Powder Coat-

ing, PCS Polymer Coated Stainless Hardware and Process Control. Only complete

systems such as 5CE can provide reliability and longevity in exterior environments.

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 installa-

tion and maintenance costs, less CO2 and improved quality of light.

Recycling

More than 90 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 5 per cent of the original energy needed to

process bauxite into aluminium is required for recycling. In other words, 95 per cent

of the original energy input is also recycled.

VFL520

Post mounted luminaire, side and forward throw distribution, asymmetric and pedestrian/

bicycle lane distribution.

IP66. Class I. IK08. Marine-grade, die-cast aluminium alloy. 5CE superior corrosion protec-

tion including PCS hardware. Powdercoat finish in RAL 9004, RAL 9006, RAL 9007,

RAL 9016 or Classic Silver. 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.

Integral EC electronic converter. Factory installed LED circuit board. LED boards can be

easily removed for upgrading. CAD optimised OLC® optics for superior illumination and

glare control. Advanced thermal management (NTC) on request.

Integrated surge protection 6/6 kV (10/10 kV optional).

Maximum spacing, for streetlighting applications, depends on wattage and light distribution:

5.5 up to 9 times the mounting height. Mounting brackets to be ordered separately.

Light source

LED 4000 K, for 3000 K refer to www.we-ef.com

Light distributions

[P65] [S60] [S65] [S70] [A60] [R65]

[S60][P65]

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[S70] [R65][A60]

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[P65] Pedestrian / bicycle lane distribution

[S60] Streetlighting distribution

[S65] Streetlighting distribution

[S70] Streetlighting distribution

[A60] Asymmetric forward throw distribution

[R65] Rectangular forward throw distribution

VFL520 Part ID Light source K lm* Factor** kg

[P65] 108-1501 [EVG] 12 LED 12W / 350 mA 4000 1512 0.57 4,7

108-1503 [EVG] 12 LED 24W / 700 mA 4000 2765 1.00 4,7

[S60] 108-1481 [EC] 12 LED 12W / 350 mA 4000 1512 0.57 4.7

108-1483 [EC] 12 LED 24W / 700 mA 4000 2765 1.00 4.7

[S65] 108-1485 [EC] 12 LED 12W / 350 mA 4000 1512 0.57 4.7

108-1487 [EC] 12 LED 24W / 700 mA 4000 2765 1.00 4.7

[S70] 108-1489 [EC] 12 LED 12W / 350 mA 4000 1512 0.57 4.7

108-1491 [EC] 12 LED 24W / 700 mA 4000 2765 1.00 4.7

[A60] 108-1497 [EC] 12 LED 12W / 350 mA 4000 1512 0.57 4.7

108-1499 [EC] 12 LED 24W / 700 mA 4000 2765 1.00 4.7

[R65] 108-1493 [EC] 12 LED 12W / 350 mA 4000 1512 0.57 4.7

108-1495 [EC] 12 LED 24W / 700 mA 4000 2765 1.00 4.7

* Nominal lumen output based on LED manufacturers data at 85°C TJ. For rated lumens at 25°C Tq and latest data refer to www.we-ef.com.** Multiplier for Isolux value

Wall / Pole brackets RV Series D x L H / H1 C kg

for VFL520 108-0979 RV0 Wall bracket 200 / 160 108 2.0

108-0980 RV2-76 Pole bracket ø 76 x 100 147 4.8

108-0981 RV2-60 Pole bracket ø 60 x 100 147 4.8

108-0982 RV5 Pole bracket 106 1.7

Pole bracket RV5 Pole bracket RV2Wall bracket RV0

FEATURES VFL520

IP classification: IP66

Electrical protection: Class I

Impact protection: IK08

Housing: Marine-grade, die-cast aluminium alloy,

5CE superior corrosion protection

Hardware: PCS (Polymer Coated stainless Steel)

Cover: PMMA RFC® (Reflection Free Contour) technology

Gasket: CCG® (Controlled Compression Gasket) technology

ECG: Integrated surge protection 6/6 kV (10/10 kV optional)

LED: 12 pieces with 3000 K or 4000 K

Optic: OLC® (One LED Concept) technology

with [P65] [S60] [S65] [S70] [A60] [R65] beam distributions

Heat sink: Integrated

Installation: Direct mount ø 76 x 80 mm, optional ø 60 x 80 version on request.

Must be indicated during order placement.

[A60] – Asymmetric forward throw distribution for lighting public spaces. Maximum angle of peak intensity 60°-65°. Rearward spill limited to an angle of 10°.

[S70] – Streetlighting distribution, illuminance-optimised lens, based on Class S1-S6 from EN 13201.

[R65] – Rectangular forward throw distribution for lighting public spaces and car parks. Maximum angle of peak intensity (side and forward) approximately under 65°. Rearward spill limited to an angle of 10°.

[S60] – Streetlighting distribution, luminance-optimised lens, based onClass ME3-ME6 from EN 13201.

[P65] – Pedestrian / bicycle lane distribution. Illuminance optimised lens, based on Class S2-S4 from EN 13201.

[S65] – Streetlighting distribution including intersections and publicspaces, luminance-optimised lens, based on Class ME3-ME6 from EN 13201.

Using either a 1-10V or DALI interface withelectronic converter, the light output and energyusage of the individual luminaires can be controlled. All components of the luminaire areengineered for reliability and longevity.

RFC® technology – engineered with a UV-sta-bilised PMMA panel which has a contoured sur-face, contoured in a way that imitates the shapeof the LED lens; the goal is to minimise the lossof light that normally occurs due to internal re-flection.

The OLC® technology is the ideal method forachieving a uniform and energy saving lightingsolution, providing highest safety and visualcomfort, in ensuring that the failure of individualLEDs does not lead to an adverse affect in thelighting.

With the intelligent use of a built-in vent, pres-sure fluctuations are equalized reliably and lessstrain is put on the seals, ensuring the sensitiveinterior electronics are protected against mois-ture penetration for years to come.

Coded connectors with push-in connection technology.LED boards can be exchanged quickly: simply pull outthe plug, remove the board, and insert a new board.

Outstanding and long lasting anticorrosion propertiescan only be achieved by a comprehensive, integratedapproach. WE-EF's unique 5CE system encompasses5 Critical Elements: Material, Conversion Coating,Powder Coating, PCS Hardware and Process Control.

PCS coated fasteners made from austinetic stainlesssteel reduce the risk of galvanic corrosion.

The luminaire is factory sealed and does not need tobe opened during installation.

The VFL520 is fitted with a 6/6 kV surge protection, which is integrated in the LED driver, in accordance with IEC 61643-11. If the surge protector has been triggered by an adverse event, the luminaire is auto-matically disconnected from the mains.

In risk areas we recommend the addition of a 10/10 kVoptional WE-EF surge protection SP10 for the luminaire.

Important:For comprehensive protection of the luminaire against lightning and electrical surges, we generally recom-mend primary (Type 1) and secondary (Type 2) surge arrestors be installed into the switch board.

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[S60]

Streetlighting distribution, luminance-optimised lens,

based on Class ME3-ME6 from EN 13201.

Spacing 5 to 5.5 times the mounting height; Ti<15 per cent.

Typical mounting height 3 m to 6 m.

[P65]

Pedestrian / bicycle lane distribution, illuminance optimised

lens, based on Class S2-S4 from EN 13201.

Spacing 5 – 7 x mounting height.

Typical mounting height 3 – 5 m.

[S70]

Streetlighting distribution, illuminance-optimised lens,

based on Class S1-S6 from EN 13201.

Spacing 7 to 9 times the mounting height; Ti<15 per cent.

Typical mounting height 3 m to 6 m.

[S65]

Streetlighting distribution including intersections and

public spaces, luminance-optimised lens, based on Class

ME3-ME6 from EN 13201.

Spacing 5 to 5.5 times the mounting height; Ti<15 per cent.

Typical mounting height 6 m to 10 m.

[R65]

Rectangular forward throw distribution for lighting public

spaces and car parks.

Maximum angle of peak intensity (side and forward) approx-

imately under 65°. Rearward spill limited to an angle of 10°.

Typical mounting height 4 m to 8 m.

[A60]

Asymmetric forward throw distribution for lighting public

spaces.

Maximum angle of peak intensity 60°-65°. Rearward spill

limited to an angle of 10°.

Typical mounting height 4 m to 8 m.

WE-EF LEUCHTEN

GmbH & Co. KG

Toepinger Strasse 16

29646 Bispingen

Germany

Tel +49 5194 909 0

Fax +49 5194 909 299

info.germany@we-ef.com

www.we-ef.com

VFL520 | European Edition | © Copyright WE-EF 2015 | Technical Specifications are Subject to change