N1 News

WILA Lichttechnik GmbH

Postfach 26 11 D 58596 Iserlohn

Vödeweg 9-11 D 58638 Iserlohn

T +49 2371 823 0 F +49 2371 823 200 wila@wila.com www.wila.com

WILA Lighting Limited

8-10 The Quadrangle Grove Technology Park

Wantage Oxfordshire OX12 9FA

T +44 1235 773 500 F +44 1235 773 533 wila@wila.co.uk

People

Projects

Products

N1/13 News

WILA Repositioning

Partner for individual lighting solutions. Page 2

Wilfried Kramb Interview

About projects and the future of LED. Page 4

Gasteig Project Munich

Integrated LED handrail lighting. Page 10

New αbet Product Range

Precision tool for the new language of lighting. Page 18

Technology in Detail

αbet focus Page 42

αbet spectra Page 54

LED Puck Page 62

Accessories Page 64

ID A2441-0413

“In these collectivist times, to live as individualistically as possible is the only true luxury that we have left.”

Orson Welles, American actor and director

1 WILA

WILA Repositioning

2 from left to right: WILA Lichttechnik Managing Director Thomas Nokk, Andreas Henrich and CEO Mike Collett

Partner for individual lighting solutions

About the repositioning of the WILA brand, product developments and broadened target groups

The world is changing. The digitalisation of lighting through LED marches on, carrying with it risk as well as opportunity in a globalised world. New technologies enable us to develop lighting that satisfies individual customer needs and desires.

In order to play an active role in shaping this process, we have carried out a profound repositioning. Our visually re-created appearance with the new logo is the optical conclusion of our decisive inner change.

We are a leading specialist for individual lighting. Individual lighting is enriching and inspiring, but it is often associated with a high level of complexity. To control this factor, we engage in an intensive dialogue with all parties involved in the design of buildings and with the lighting design professions to discuss, learn and evolve in view of improving the visual environment.

With this objective in mind, WILA develops modular and flexible lighting tools guaranteeing a high level of creative freedom in lighting design. WILA is driven by the conviction that its products and services are safe and reliable, and provide constant quality and efficient performance.

”Lighting will play the decisive role in the integrated solutions of the future. Our repositioning addresses this challenge, which will likely keep us busy for the next 20 years.“ Mike Collett

“The repositioning means that we’ll add to our existing client groups, as we become partners also of lighting designers and architects. But first we had to gain a better understanding of lighting designers’ or architects’ complex thought processes, as well as of their expectations – including of details – and of what kinds of requirements a product should have so it can fulfil project-specific lighting solutions with high quality standards.” Thomas Nokk

Founded in 1857, WILA now enjoys a worldwide reputation for individual lighting solutions in offices and administrative buildings, social institutions, schools and education facilities, and the health and transport sectors. The company‘s positioning is international, with a focus on the European market and sales partners in more than 25 countries.

WILA is certified according to the EN ISO 14001 and 9001 standards, is a member of the German Association for

Sustainable Construction (Deutsche Gesellschaft für

Nachhaltiges Bauen, DGNB) and has been C02 -neutral since the beginning of 2012.

”It’s not enough for a new design just to be good; it has to be unique. The new alphabet product family was created to be a toolkit providing designers with unrestrained creative freedom. That’s our new standard now. We’ve accepted the challenge of enhancing our products – which have always been highly sophisticated from a technological perspective – by giving them a distinctive look.“ Andreas Henrich

3 WILA

Interview

4

“We want to be a part of the project, not just manage it.”

Wilfried Kramb , lighting designer and co-founder of a.g Licht, talks about the project business, the future of LED and his favourite dish

How did you come to lighting and when?

Basically it happened straight out of university. My first project was the illumination of the member cafeteria at the state parliament of Hesse. Maybe the seed was sown as early as that time.

From your beginning days in the area of lighting design to today: Which aspects of the job have fundamentally changed?

Do you have three hours? I’ll try to keep it short. In general, in today’s project business one has to be increasingly concerned with things and duties that don’t really have anything to do with the actual job of a designer or planner.

The trend seems to indicate that this issue will continue to get worse going forward.

After so many years: Isn’t it about repeatedly solving the same problems, just with ever-more efficient technology?

Not at all – because a.g Licht has such interesting design partners and clients, new requirements and challenges evolve directly from the projects themselves. We don’t really ever feel like we can just pull something out of the

“drawer.”

Compared with some other professions, lighting design isn’t a particularly old specialty. But since about 1900 people speak of technological illumination. So shouldn’t manufacturers of lamps and luminaires have been able to develop the ultimate in lighting tools by now? What areas still see a need for individual development?

On the contrary, the present time proves the exact opposite

– with developments in the area of LED, along with future prospects in the area of OLED, we’ll all have to basically start over from square one. The excitement continues!

Besides the technological arms race among car brands, they use poignant design to highlight their individuality, a design increasingly defined by the effects of light.

Think of the “illuminated eyes” of headlights and taillights. Has architecture not yet sufficiently recognised this significance, or why else are there so many bland, uniform solutions?

Here, too, I would point to the increasingly more sophisticated challenges our office has to solve. Nowadays the buildings themselves have to take on certain tasks sometimes, and suddenly lighting – through dynamics, colour and elaborate controls – can take over some of those tasks. It’s not my impression that anything has been missed in this area. >

5 WILA

Interview

Everyone is talking about the technological possibilities and future prospects offered by LED technology. It’s almost as if there are no other light sources left in the

US and especially in the Far East; in Germany, it seems, the pace of adaptation is still modest. What’s your view of the technology?

Still critical. It will be the technology of the future, but currently we still examine each case individually as we decide what to recommend to the builder. At this time

I don’t yet see LED as a panacea.

How to does this rather more “artistic” lighting application differ from your everyday work?

It was definitely not artistic work. The façade is part of the architecture, which means the content of what is shown is also part of the architecture. Those are exactly the kinds of new challenges that make our work so exciting.

Would you still be interested in using tungsten halogen lamps nowadays? And if yes, where?

Yes, definitely – at my home.

Seven people staff your office. How do you make sure that all of them work continuously in accordance with a shared design principle? How much freedom is granted to each individual? Or did it just so happen that

“like-minded individuals” have found each other?

Due to our size, myself and my partners Klaus Adolph and Daniel Walden always have a chance to participate in determining the direction the design will take. Incidentally that was the initial approach, too, when Klaus Adolph and

I founded the office in 1996 – we’ve always wanted to be a part of the projects and not just manage them.

You’ve also worked internationally for a while now.

What distinguishes projects, and working on projects, in the US, Europe and Asia?

I’ll try to keep my answer short again and stick to talking about Asia. Besides being far away and having greater difficulty exerting influence there, it’s also a lot harder to maintain a certain quality level during the implementation phase. Sometimes what’s lacking is a sense of aspiration.

That always makes it rather difficult for us to set the direction for implementation early on.

What inspires you?

That’s a very difficult question, and I can’t answer it with any precision. Inspiration can come from small experiences, impressions and simple moments. It doesn’t follow any predetermined rules that can be called up on demand.

If you could go back, had a chance for a do-over and fresh start in your career choice, would you “come to the light” again?

I have no reason whatsoever to make a different choice.

What’s your passion when you’re off work?

I like spending my free time out in nature. I especially love the extreme outdoors, specifically colder areas – which happens to fit together well with my love of scotch.

An inexhaustible number of ingredients, many varied tools, limited amounts of time, high expectations, people waiting, at the same time a vital “necessity” and an indulgence –lighting design indeed is a bit like cooking.

Would you tell us your favourite dish?

To be completely honest, I have very different ones all the time. There can be great variation depending on my ‘state of mind’ and physical location. I love Wiener schnitzel in

Austria, the Austrian sweet-pancake specialty kaiserschmarrn when in the mountains, and what’s hot right now is pumpkin soup made expertly by my wife from home-grown pumpkins.

I’m sure that also answers your next question – in the kitchen I’m more of an assistant.

What areas challenge you professionally?

We view every project as a challenge and have partners that help maintain this level of excitement. If you were asked to give advice to young lighting designers, what would it be?

To obtain a university degree in interior design or architecture, no matter what. That’s our language, and it will be the tool of our trade at a later time. >

Could you name one of your projects that made you especially proud?

I’ve enjoyed a number of them very much; most recently it’s definitely the project in Cheonan with UN Studio where we made an entire 13,500 m 2 façade video-capable and, on top of that, had a chance to help develop the content.

6 7 WILA

Interview

If you were asked to give advice to builders, what would it be?

To re-gain some trust in the conventional processes that used to be the norm. Our experience shows that in the end, things cost exactly what they would have cost otherwise and take just as long as they would have taken otherwise.

In the era of the ozone hole and climate change:

Can unused light at night – be it indoors or outdoors – still be justified? How do you react to environmental inevitabilities?

This is exactly why and how we deploy intelligent controls, to use light only when it is needed and can be seen. That’s true both indoors and outdoors. When working in Asia, one surely is confronted by this dilemma much more often, but even there we see a trend toward saving energy, precisely by using such measures. And at 11pm, they simply turn off outdoor lighting there….

If you were asked to give advice to luminaire manufacturers, what would it be?

To create internal possibilities that allow them to pay attention to the individual requirements of projects and design planning. However that’s something that has to be developed as company culture; one has to want it, and one has to live it.

How dynamic has lighting become within buildings today? Do you think in terms of illuminated architectural designs or film script-like lighting scenarios?

It has become very dynamic, and the development and deployment of controls takes up ever-more space in our design planning, all the way to using media content that has to be co-developed by us in synch with the architecture.

What’s the significance of daylight in your designs?

To what degree can you influence architecture in this regard?

Increasingly more significant. Certifications and aspirations for more energy-efficient construction are driving the use of daylight as a source of lighting and make it more and more interesting for builders, too.

What makes you angry at your job?

The steadily increasing share of work we have to do that’s outside the scope of our profession as we understand it.

LED brings light to places where there wasn’t any before.

Even flower pots can have a colourful glow now. In your estimation, where is the dividing line between functional necessity, wasted energy and playful superfluity?

Exactly there.... at the flower pot.

How does next week look for you?

Good – half the time will be spent at the office, the other half at appointments – so far. <<

Photos Thomas Solecki, Bochum

Personal

Name:

Year of birth:

College:

Work:

Web:

8 9 WILA

Project

10

LED Pucks illuminate the numerous exterior stairways leading up to the Gasteig building

New lighting for the

Gasteig in Munich

For its 25th anniversary the Gasteig – Munich’s centre for cultural and educational events and conferences high up on the right bank of the Isar River – commissioned a number of measures to improve its visual appearance and public perception, among them a new lighting concept for its exterior spaces. Ever since Ulrike Brandi Licht’s designs have been implemented, all exterior stairways are illuminated by almost 300 energy-efficient LED Pucks.

A desire to have a positive effect on the cityscape while intuitively guiding visitors on their path to the entrance and increasing security provided the impetus in 2010 for a redesign of the lighting situation in the outdoor spaces of the Gasteig. As part of the project Ulrike Brandi developed comprehensive lighting design plans based on existing architectural features, among them numerous stairways leading up to the historic building site up on the banks of the Isar River. A low passageway linking the path from the light-rail train station and the Gasteig entrance was particularly objectionable because it used to appear dark and forbidding even during the day. >

11 WILA

Projekt

12

Thanks to its new lighting situation, Gasteig today invitingly welcomes its approx. 6,000 daily visitors to the Munich

Philharmonic, the University for Music and Theatre, the

Adult Education Centre and the Municipal Library – all of them tenants at the Gasteig. From the light-rail train station as a point of departure, but also all along the stairways, the illumination intuitively guides Gasteig visitors to the entrance of the building.

For the numerous stairways the Mini-LED Puck system, which was specifically developed for flush integration into metal hand rails, ensures safe illumination of the stairs.

Furthermore the small yet efficient light sources (1.5 W,

3,000 Kelvin) provide atmospheric lighting for the adjacent masonry. To ensure that their long service life of approx.

50,000 hours is not shortened by possible vandalism, these

LEDs are protected against destruction by special polycarbonate lenses. The impact resistance of all visible parts corresponds to impact protection class IK10 (EN62262). A high ingress protection rating (IP 66) ensures that no jet water can ingress into the Mini-LED Pucks when the stairways are being cleaned. >

Ulrike Brandi Licht developed a lighting concept for the exterior spaces that guides visitors safely and intuitively as they move about the site.

The LED Puck integrated into the handrail ensures that the steps are illuminated with safety in mind.

13 WILA

Project

With a view to increasing the sense of security, the formerly dark passage is now lit with E-Connect recessed ceiling luminaires equipped with 35 W HIT lamps. For recessing the Downlights, housings were inserted into the ceiling grid structure. The arcades as well as another transit way are now also evenly illuminated by WILA luminaires. To ensure a permanently clean look of the glass cover, minimised maintenance and constant light distribution, the insect-proof

E Connect Downlight complies with ingress protection rating IP 65. With an illuminance of up to 200 lux, the

Downlights in the previously dark passageways now make for a pleasantly bright environment and provide a sense of security. <<

Adjacent masonry is illuminated by atmospheric lighting with 3,000 Kelvin.

A particular polycarbonate lens protects against destruction.

14

With an illuminance of up to 200 lux, insect-proof Downlights in the previously dark passageways of the Gasteig make for a pleasantly bright environment and provide security.

The new lighting concept and the use of innovative lighting technologies greatly enhance the Gasteig’s visual appeal and help make it the cultural focal point of the Bavarian metropolis.

Project: Gasteig Munich

Designer: Ulrike Brandi Licht, Munich

Photographer: Hustedt network, Dipl.-Ing. Jörn Hustedt, Hamburg

15 WILA

Knowledge

“Uncomplicated installation thanks to well thought-out technology.”

Peter Le Manquais WILA’s technical director, talks about

LED Puck installation during projects

The new generation of the LED Puck has become available for delivery recently – what’s new?

What’s new is the lighting technology. Besides the previously available symmetrical beam spread angles there are now asymmetrical ones, as well. This opens up new opportunities, especially for illuminating stairways while conforming to official standards. Consequently

LED Pucks can be installed centred on the underside of the handrail. The reflector is also lower now and prevents glare. The result is more comfort.

Are there protection rating changes, as well?

The stainless steel LED Puck will be available standard in

IP 67 with borosilicate glass or in IP 66 with polycarbonate.

In the latter version it is also vandal-proof – ideal for public outdoor spaces.

One noteworthy feature has always been easy installation, even when retrofitting existing handrails.

Yes, that’s true. Installation was actually made even easier and installation time has been reduced. The intelligent 3-in-1 mounting tool consists of a drilling jig, a fixation device and a coupling piece for the drill.

Can you describe the mounting sequence?

The first step is to mark the spot for drilling on the tube.

Then the fixation device is tensioned firmly on the tube using a chain. The integrated spirit level allows setting the beam spread angle of the LED Puck to the exact desired value. The special drill is then used to make the necessary holes and counterbores. Afterward a second attachment is used to cut the thread – and you’re done. Throughout the process, the drilling jig fixes the drill exactly in position.

Since the handrail will later function as the heat sink for the

LED Puck, it’s essential to proceed with accuracy. This can be guaranteed by the specialised tool, which can be made available by WILA for projects if needed. That’s how all

LED Pucks are flush-mounted into the handrail.

Sounds simple. How can the handrail be protected from possible scratches?

The trick is to use tape in the places where the tool rests on the surface of the tube in order to protect the handrail.

How is the electrical installation done?

The advantage of the system is that you only have to run the wires from one LED Puck to the next and re-connect them there. That’s a stress reliever, especially with strongly curved handrails. For further details consult the wiring diagram included with the delivery. The power supply can be integrated into the profile or placed outside, depending on the system and the length of the handrail.

Is the LED Puck only suitable for handrails?

No. Dublin Airport was a fantastic project. There the prominent façade is being illuminated by LED Pucks inside two specially made aluminium profiles. The LED Puck allows us to address individual client requests and develop ideal solutions.

<<

16

LED Puck as accent lighting for the exterior facade of Dublin Airport, Terminal 2.

17 WILA

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Product αbet

α

bet

the language of light

Graphic signs combined correctly lead to words, which are the basis for verbal communication. Applying the concept to lighting, luminaires combined correctly lead to moods and accents for visual communication. WILA offers the “tools of light” for the perfect execution of lighting tasks.

Design

Award winning design quality

Modular for individual lighting solutions

Flush-mounted integration

Light quality

Variable lens technology

Premium colour rendering

Precise light projection

Performance

Flexible adjustment options

Latest LED technology

Efficient thermal management

19 WILA

Product αbet

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Building blocks for individual lighting solutions

Mounting ring, with installed height of only 2 mm

Reflector unit, flush integration in mounting ring

Anti-glare cone for optimal visual comfort

Heat sink with thermally optimised honeycomb structure

Individually focused glass lens for precise light projection

Focusing unit with scale for fine focus adjustments 24-40° or 35-60°

Technology that’s precise and flexible

The modularity of the system with a variety of different styles, dimensions, types of installations and the photometry allows for maximum design freedom. By being able to precisely focus the lens and rotate and tilt the photometric unit, you’ll continue to be flexible into the future.

21 WILA

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Product αbet

Design quality in detail

Design as we understand it isn’t an end in itself, but improves the visual environment. The new mounting system enables a higher level of integration and the intelligent heat sink design leads to a longer service life.

Intelligent heat sink design

Mounted with ceiling trim – inconspicuous ceiling integration due to installed height of only 2 mm. Reflector and mounting ring flush.

Higher protection rating – flexible reflector height adjustment ensures that protective or diffusing screens are flush with the lower edge of the f3 mounting system. That means the application spectrum ranges all the way to areas of a required IP 44 from below. The alteration is easy to do should the purpose of the room changes.

Ceiling integration - standard

Mounted flush with ceiling – absolutely flush when viewed from below; edgeless installation. The custom-formed partition edge ensures a clean transition between ceiling and reflector.

23 WILA

Product αbet

Precise light quality

Light is a prerequisite for visual perception of any kind. It is through light that the environment and the architecture become visible. Homogenous light projection, excellent colour rendering and individual adjustments are the building blocks for outstanding results.

1.

Homogenous light projection

2.

3.

Beam spread angle individually adjustable 20°-60°

Excellent colour rendering including reds

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10° 20° 40° 60°

25 WILA

Product αbet focus

PLT precision lens technology – focusable and flexible

7° narrow beam

The “curtain of light” puts the wall into focus. Thereby the wall separates itself and becomes the actual architectural detail.

40° wide beam

For walls spanning long expanses a rhythmic division through light makes the dimension come to life.

Ambient lighting 35°< α < 60°

Absolutely uniform illumination without bright-dark zones, UGR < 19

The centrepiece of the new photometric system is the variable focusing unit. Comparable to a camera lens the unit is infinitely variable to achieve various beam angles, even retroactively. In this way illumination of objects and surfaces can be designed individually and with maximum precision.

Accent lighting 20°< α <40°

Objects and pictures are purposefully highlighted

Accent lighting 7° spot

26

20° narrow beam

Hallways connect. Through the use of spotlights, projected on the floor as “light circles”, this guiding function is particularly emphasised.

60° wide beam

An even illumination of the walls and the floor highlights the open connection and provides a sense of orientation.

27 WILA

Product αbet

Ceiling integration

Only 2 mm visible or mounted flush with ceiling

28

f

3

Mounting technology flat, flexible, functional

The new mounting system has an installed height of only 2 mm. That’s perfect for integration in existing ceiling setups.

Multi-point mounting using the hollow wall box principle ensures secure installation for ceiling thicknesses of 1-25 mm.

mm

Mounted with ceiling trim – inconspicuous ceiling integration due to installed height of only 2 mm. Reflector and mounting ring flush.

Mounted flush with ceiling – absolutely flush when viewed from below; edgeless installation. The custom-formed partition edge ensures a clean transition between ceiling and reflector.

29 WILA

Product αbet focus and αbet spectra

Individually adjustable stepless, exact and easy to install

30

Tilting

The inclination angle of the directional spot allows stepless adjustments from 0-30° with αbet focus or

0-25° with αbet spectra. These adjustments can also be made retrospectively from below. The imprinted scale simplifies a consistent tilting of multiple spots to ensure homogenous illumination.

30°

Positioning

The support ring’s markings simplify the rotation of multiple luminaires in a row to ensure even wall illumination. This saves time and thus money.

361°

Rotating

The lighting module can be rotated up to 361°.

A rotation lock prevents over-rotating the electrical connections and provides safety.

The direction can be precisely adjusted from below using the scale.

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Product αbet focus

Chain systems for a tidy ceiling appearance

Because of the modular chain frame, luminaires can be mounted individually or arranged in groups and flush with the ceiling. This feature makes possible the combination of lighting with other building functions in just one visible housing, e.g. loudspeakers, video cameras or air-conditioning elements. This results in lower installation and maintenance costs and in a structured, tidy ceiling appearance.

33 WILA

Product αbet focus

Temperature management – Bionics for maximum efficiency

Performance and service life of LED luminaires depend largely on temperature management. The distinctive shape of the new heat sink is an expression of optimum heat dissipation by maximizing the surface area. Use of materials was reduced to a minimum by using a thermal simulation programme and borrowing the honeycomb structure found in nature. The wide shape further reduces installation depth – which is ideal if there are ceiling restrictions.

Active cooling system

Top performance requires more cooling. For this reason WILA relies on a flush-mounted integrated cooling system for smaller-diameter luminaires above 50 W. Dimensions and design remain unchanged and thanks to contactless control via magnets the fan works silently.

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Optimum results thanks to in-house lab

The heat sink was developed at our in-house lab using a thermal simulation programme. Measuring results regarding cooling and air circulation were derived using 3D CAD drawings and directly influenced construction for an optimal outcome.

35 WILA

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Product αbet spectra

Maximum light and colour quality

Colour distortions are irritating. That’s why optimal colour rendering comes standard with αbet spectra.

The quality differential is particularly visible in the red spectrum. Additionally, with < 2SDCM

(Standard Deviation of Colour Matching), WILA currently offers the highest colour homogeneity value of any LED luminaire with colour temperatures of 3000 K (warm white) and 4000 K (neutral white).

Premium colour rendering

In places with especially high demands for colour rendering, such as in museums and art galleries or in quality control areas, the Ra value alone is often not sufficient, so additional colours are used for evaluation. The rendering of the colour red (R9) is a particularly useful quality factor in such an assessment. WILA offers a premium option RA > 95 with concomitant R9 (red) > 90 for each of the three colour temperatures 2700/3000/4000 K.

The colours R1-R8 determine the Ra value; the colours R9-R14 are accounted for separately

LED light in halogen quality

αbet spectra offers top colour rendering values across the entire colour spectrum. Besides the eight standard colours that make up the Ra value, all the saturated colours also impress with their high colour rendering values. R9 (red), for example, reaches a value of 96. In this way αbet spectra facilitates the implementation of high-quality lighting solutions that are comparable to halogen applications.

CRI R1 R2 R3 R4 R5 R6 R7 R8 R9 R10 R11 R12 R13 R14 R15

LED αbet spectra 81 80 85 89 81 78 80 86 66 16 64 79 58 81 93 75

LED αbet spectra 98 98 99 98 98 98 97 98 98 96 99 98 88 98 98 98

Tungsten

98 98 99 99 99 98 98 99 97 92 97 98 97 98 99 97 halogen lamp

Halogen metal halide lamp

Compact fluorescent lamp

82 90 94 69 82 81 81 87 71

87 91 93 86 91 89 90 88 70

27

17

59 62 55 93 78 88

76 91 81 93 92 81

Independent measurements by University College London

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Product αbet spectra

Reliability – guaranteed quality

WILA guarantees for 5 years that the products of the WILA brand will be free of manufacturing and/or material defects with correct usage. This manufacturer’s guarantee applies to all standard products listed in the brochure and their variants.

For further details about this guarantee and the required registration, please visit our website at “ Service” at www.wila.com.

M an uf ac ture rs guaran te e

5 years

R eg istr ation www

.w

ila

.c

m o

Service life – high residual luminous flux 50,000 h (L80)

The modules used for αbet spectra have been tested according to

LM80/ TM21 and offer a residual luminous flux of 80% after 50,000 h.

That means that design and maintenance factors can be implemented even more efficiently when deploying αbet spectra LED luminaires.

Luminous ﬂux in %%

100

90

80

70

60

50

40

30

20

10

0

1,000 h 10,000 h 50,000 h

LM-80

Values

TM-21

Maximum colour stability with αbet spectra

With a value of < 2SDCM, the αbet spectra product family has the highest colour homogeneity of all LED luminaires. During the course of their serviceable life, the installed LED modules deviate at most by only one additional ellipse from the original chromaticity coordinate, a fact that underscores their high quality. This result is guaranteed for a period of 5 years.

Colour deviation or chromaticity stability – MacAdams

The homogeneity of the colours is of particular importance for the combination of a larger number of LEDs. Adjacently arranged luminaires should not exhibit any perceptible difference in colour, especially when they have to fulfil vertical lighting functions. Another quality criterion for the colour perception of LED modules or arrays is its representation in the form of MacAdams ellipses, which are grouped around a defined chromaticity coordinate. The less the dispersion of the LEDs around the chromaticity coordinate, the greater the homogeneity. The number of

MacAdams ellipses, meaning the deviation from the target chromaticity coordinate, is given in SDCM (Standard Deviation of Colour Matching).

Deviations of < 2 SDCM are classified as being “imperceptible to the eye.” abet spectra specification

2-Step

3-Step

4-Step

5-Step

With LED light sources that show much greater deviations from the original chromaticity coordinate over the course of their lifetime, white tends to drift off into greenish or pink tones. This drift is noticeable to the eye. Therefore special attention should be paid to chromaticity stability, in particular for vertical lighting tasks. Appearance when the LED has a strong deviation from the original chromaticity coordinates.

39 WILA

Product overview

α bet focus

Precision lens technology with variable focusing unit

V ariable half-peak divergence angle α 24-40° and 35-60°

Lumen output 400-2100 Llm

Colour temperature 3000, 4000 K

Heat sink made of die cast aluminium

Downlight/directional spotlight

Style round/square

Mounting with ceiling trim or flush with the ceiling

Chain system

Excellent product range for professional Architectural Lighting

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α bet spectra

Brilliant light and colour quality

Colour rendering CRI > 95 and CRI > 80

Chromaticity coordinate < 2 SDCM

Lumen output 350-1800 Llm

Colour temperature 2700, 3000, 4000 K

Half-peak divergence angle α 7°, 20°, 40°, 60°

Downlight/directional spotlight

Downlight with liteoptic IP 44

Style round

Mounting with ceiling trim or flush with the ceiling

41 WILA

αbet focus Downlights, recessed

OH PLT

RD

CO

L x W

Precise Lens Technology

System photometric data

LED

CRI > 90

α° Llm Llm/W max RD mm kg

Q 10, CO 120 x 120 mm, L x W 127 x 127 mm, OH 115 mm

18 W 24-40 395-845

18 W 35-60 495-790

25 W 24-40 580-1230

25 W 35-60 720-1160

38 W 24-40 770-1620

38 W 35-60 980-1570

37

36

50 W 24-40 1000-2120 39

50 W 35-60 1260-2020 37

42

40

44

41

Article number

150 0.9 AF2101002-33-30

150 0.9 AF2101003-33-30

150 0.9 AF2101005-33-30

150 0.9 AF2101006-33-30

200 0.9 AF2101008-33-30

200 0.9 AF2101009-33-30

200 0.9 AF2101011-33-30

200 0.9 AF2101012-33-30

Use index -30 for 3000 K or -40 for 4000 K, photometric data in the

“ products” on www.wila.com

Lighting technology

Lens system with variable half-peak divergence angle α 24-60°

Colour Rendering Index CRI > 90

Luminaire luminous flux 395-2120 Llm

UGR < 19


50.000 h lifetime (L70)

Mirrow reflector made of aluminium, high polished

Luminaire housing

Heat sink made of die-cast aluminium

Cover frame white, RAL 9016

Operating and assembly technology

LED gear box to be ordered seperately

Mounting for ceiling thicknesses 1-25 mm

Installation flush with the ceiling or with cover frame LED gear boxes Article number

18 W

25 W

38 W

50 W without loop-in function with loop-in function standard DALI

83761

83762

83766

83767

83761-DD

83762-DD

83767-DD

83767-DD standard

83767-DV

DALI

83761-DV 83761-DD-DV

83762-DV 83762-DD-DV

83766-DV 83767-DD-DV

83767-DD-DV

Concrete mounting boxes

Q10, 15/25 W

Q10, 37/50 W

Article number

88085Q10

88088Q10

Details to operation, assembly and emergency lighting on page 64

IP20

AF2101005-33-30 alpha min AF2101005-33-30 alpha max AF2101006-33-30 alpha min AF2101006-33-30 alpha max

15°

5000 cd/klm

15°

2500 cd/klm

15°

4000 cd/klm

15°

1500 cd/klm

AF2101005-33-30 alpha min

H [m] Ø [m] E [lx]

0,5

1,0

1,5

0,21

0,43

0,64

6285

1571

698

2,0

2,5

0,85

1,06

393

251

AF2101005-33-30 alpha max

H [m] Ø [m] E [lx]

0,5

1,0

1,5

0,36

0,72

1,08

6705

1676

745

2,0

2,5

1,44

1,80

419

268


H [m] Ø [m] E [lx]

0,5

1,0

1,5

0,29

0,58

0,88

6059

1515

673

2,0

2,5

1,17

1,46

379

242


H [m] Ø [m] E [lx]

0,5

1,0

1,5

0,64

1,28

1,93

2931

733

326

2,0

2,5

2,57

3,21

183

117

Flush mounted with the ceiling

Replace the number AF21 by AF22, example AF2201002-33-30.

42 43 WILA

αbet focus Directional Spotlights, recessed

RD

361°

OH

30°

PLT

CO

L x W



LED

CRI > 90


Q 10, CO 120 x 120 mm, L x W 127 x 127 mm, OH 115 mm

18 W 24-40 400-760

25 W 24-40 590-1110

38 W 24-40 770-1470

50 W 24-40 990-1990

38

40

33

36

200

200

200

200

1.0

1.0

1.0

1.0

Article number

AF2103002-33-30

AF2103005-33-30

AF2103008-33-30

AF2103011-33-30




Lens system with variable half-peak divergence angle α 24-40° and 35-60°

Luminaire body 361° rotatable and 30° tiltable



UGR < 19






Cover frame white, RAL 9016 LED gear boxes Article number

18 W

25 W

38 W


83761

83762

83766

83767

83761-DD

83762-DD

83767-DD

83767-DD standard

83767-DV

DALI

83761-DV 83761-DD-DV

83762-DV 83762-DD-DV

83766-DV 83767-DD-DV

83767-DD-DV




Installation flush with the ceiling or with cover frame


Q10, 15/25 W

Q10, 37/50 W

Article number

88085Q10

88088Q10


IP20


15°

4000 cd/klm

AF2103005-33-30 alpha max AF2103005-33-30 alpha min

H [m] Ø [m] E [lx]

0,5 0,22 6407

1,0

1,5

2,0

2,5

0,44

0,66

0,88

1,10

1602

712

400

256

15°

2500 cd/klm


H [m] Ø [m] E [lx]

0,5 0,35 6970

1,0

1,5

2,0

2,5

0,70

1,06

1,41

1,76

1742

774

436

279



44 45 WILA

46 47 WILA

αbet focus Downlights, recessed

OH PLT

RD

CO

D



LED

CRI > 90

α° Llm

18 W 24-40 400-830

18 W 35-60 500-800

Llm/W max RD mm kg

R10, CO 120 mm, D 127 mm, OH 115 mm

42

40

25 W 24-40 590-1250 45

25 W 35-60 730-1160 41

38 W 24-40 740-1530 35

38 W 35-60 950-1510 34

50 W 24-40 1010-2120 39

50 W 35-60 1240-1980 36

Article number

150 0.9 AF1101002-33-30

150 0.9 AF1101003-33-30

150 0.9 AF1101005-33-30

150 0.9 AF1101006-33-30

200 0.9 AF1101008-33-30

200 0.9 AF1101009-33-30

200 0.9 AF1101011-33-30

200 0.9 AF1101012-33-30




Lens system with half-peak divergence angle α 24-40° and 35-60°



UGR < 19






Cover ring white, RAL 9016




Installation flush with the ceiling or with cover ring LED gear boxes Article number

18 W

25 W

38 W


83761

83762

83766

83767

83761-DD

83762-DD

83767-DD

83767-DD standard

83767-DV

DALI

83761-DV 83761-DD-DV

83762-DV 83762-DD-DV

83766-DV 83767-DD-DV

83767-DD-DV


R10, 15/25 W

R10, 37/50 W

Article number

88083R10

88089R10


IP20

AF1101011-33-30 alpha min AF1101011-33-30 alpha max AF1101012-33-30 alpha min AF1101012-33-30 alpha max

15°

4000 cd/klm

15°

2500 cd/klm

15°

4000 cd/klm

15°

1500 cd/klm


H [m] Ø [m] E [lx]

0,5

1,0

1,5

2,0

2,5

0,21

0,43

0,64

0,86

1,07

10891

2723

1210

681

436


H [m] Ø [m] E [lx]

0,5

1,0

1,5

2,0

2,5

0,36

0,72

1,07

1,43

1,79

11821

2955

1313

739

473


H [m] Ø [m] E [lx]

0,5

1,0

1,5

2,0

2,5

0,29

0,57

0,86

1,15

1,43

10768

2692

1196

673

431


H [m] Ø [m] E [lx]

0,5

1,0

1,5

2,0

2,5

0,63

1,26

1,90

2,53

3,16

5257

1314

584

329

210



48

Anwendungsfoto

49 WILA

αbet focus Directional Spotlights, recessed

OH

30°

PLT

RD

361°

CO

D



LED

CRI > 90


R10, CO 120 mm, D 127 mm, OH 115 mm

18 W 24-40 480-970 48

25 W 24-40 560-1130 40

38 W 24-40 780-1580 36

50 W 24-40 1010-2030 37

200

200

200

200

1.0

1.0

1.0

1.0

Article number

AF1103002-33-30

AF1103005-33-30

AF1103008-33-30

AF1103011-33-30




Lens system with half-peak divergence angle α 24-40°




UGR < 19






Cover ring white, RAL 9016 LED gear boxes Article number

18 W

25 W

38 W


83761

83762

83766

83767

83761-DD

83762-DD

83767-DD

83767-DD standard

83767-DV

DALI

83761-DV 83761-DD-DV

83762-DV 83762-DD-DV

83766-DV 83767-DD-DV

83767-DD-DV




Installation flush with the ceiling or with cover ring


R10, 15/25 W

R10, 37/50 W

Article number

88083R10

88089R10


IP20


15°

5000 cd/klm

AF1103008-33-30 alpha max AF1103008-33-30 alpha min

H [m] Ø [m] E [lx]

0,5 0,22 8419

1,0

1,5

2,0

2,5

0,43

0,65

0,86

1,08

2105

935

526

337


H [m] Ø [m] E [lx]

0,5 0,38 9929

1,0

1,5

2,0

2,5

0,75

1,13

1,50

1,88

2482

1103

621

397

15°

2500 cd/klm



50

Anwendungsfoto

51 WILA

52 53 WILA

αbet spectra Downlights, recessed

RD

CO

D


LED

CRI > 95

α°

R08, CO 95 mm, D 102 mm

13 W 20

13 W 40

Llm

640

640

Llm/W RD mm kg

46

46

46

95

95

95 13 W 60 640

R10, CO 120 mm, D 127 mm

13 W 20

13 W 40

13 W 60

22 W 20

22 W 40

22 W 60

28 W 20

28 W 40

28 W 60

640

640

640

910

910

910

1180

1180

1180

46

46

46

40

40

40

39

39

39

Article number

0.3 AS1101001-33-30

0.3 AS1101002-33-30

0.3 AS1101003-33-30


Colour Rendering Index CRI > 95, CRI >80

Highest colour homogeneity (< 2 SDCM)


UGR < 19


Half-peak divergence angle α 20°, 40°, 60°


Mirrow reflector made of aluminium, high polished 120 0.5 AS1101004-33-30

120 0.5 AS1101005-33-30

120 0.5 AS1101006-33-30

120 0.5 AS1101007-33-30

120 0.5 AS1101008-33-30

120 0.5 AS1101009-33-30

120 0.5 AS1101010-33-30

120 0.5 AS1101011-33-30

120 0.5 AS1101012-33-30


Heat sink made of extruded aluminium profile






CRI > 80

R08, CO 95 mm, D 102 mm

6 W 20

6 W 40

6 W 60

10 W 20

10 W 40

10 W 60

13 W 20

13 W 40

13 W 60

18 W 20

18 W 40

18 W 60

R10, CO 120 mm, D 127 mm

13 W 20

13 W 40

13 W 60

18 W 20

18 W 40

18 W 60

29 W 20

29 W 40

360

360

360

640

640

640

910

910

910

1180

1180

1180

910

910

910

1180

1180

1180

1820

1820

51

51

51

58

58

58

65

65

65

62

62

62

65

65

65

62

62

62

59

59

95

95

95

95

95

95

95

95

95

95

95

95

120

120

120

120

120

120

120

120

0.3 AS1101101-33-30

0.3 AS1101102-33-30

0.3 AS1101103-33-30

0.3 AS1101104-33-30

0.3 AS1101105-33-30

0.3 AS1101106-33-30

0.3 AS1101107-33-30

0.3 AS1101108-33-30

0.3 AS1101109-33-30

0.3 AS1101110-33-30

0.3 AS1101111-33-30

0.3 AS1101112-33-30

0.5 AS1101113-33-30

0.5 AS1101114-33-30

0.5 AS1101115-33-30

0.5 AS1101116-33-30

0.5 AS1101117-33-30

0.5 AS1101118-33-30

0.5 AS1101119-33-30

0.5 AS1101120-33-30

29 W 60 1820 59 120 0.5 AS1101121-33-30

Use index -30 for 3000 K or -40 for 4000 K or -27 (2700 K, just 6-13 W), photometric data in the “ products” on www.wila.com

LED gear boxes Article number

Ra 95, 13 W

Ra 95, 22 W

Ra 95, 28 W

Ra 80, 6 W

Ra 80, 10 W

Ra 80, 13 W

Ra 80, 18 W

Ra 80, 29 W

R08

R10 without loop-in function with loop-in function standard DALI

83762

83763

83763

83764

83765

83763

83763

83763

83762-DD

83763-DD

83763-DD

-

83768-DD

83768-DD

83769-DD

83763-DD standard DALI

83762-DV 83762-DD-DV

83763-DV 83763-DD-DV

83763-DV 83763-DD-DV

83764-DV

83765-DV 83768-DD-DV

-

83763-DV 83768-DD-DV

83763-DV 83769-DD-DV

83763-DV 83763-DD-DV

88022R08

88053R10


IP20

AS1101113-33-30 AS1101114-33-30 AS1101115-33-30

15°

6000 cd/klm

15°

2500 cd/klm

15°

1500 cd/klm

AS1101113-33-30

H [m] Ø [m]

0,5

1,0

1,5

2,0

2,5

0,17

0,33

0,50

0,66

0,83

E [lx]

14689

3672

1632

918

588

AS1101114-33-30

H [m] Ø [m]

0,5

1,0

1,5

2,0

2,5

0,35

0,70

1,04

1,39

1,74

E m

[lx]

5776

1444

642

361

231

AS1101115-33-30

H [m] Ø [m]

0,5

1,0

1,5

2,0

2,5

0,55

1,11

1,66

2,22

2,77

E m

[lx]

2983

746

331

186

119


Replace the number AS11 by AS12, example AS1201001-33-30.

54 55 WILA

αbet spectra Downlights with higher protection IP 44

IP 44

RD

CO

D


LED

CRI > 95

R08, CO 95 mm, D 102 mm

13 W

13 W

13 W 60 610 44 100 0.3

R10, CO 120 mm, D 127 mm

13 W

13 W

13 W

22 W

22 W

22 W

28 W

28 W

28 W

20

40

60

20

40

60

20

40

60

610

610

610

880

880

880

1140

1140

1140

44

44

44

38

38

38

38

38

38

125

125

125

125

125

125

125

125

125

α° Llm Llm/W RD mm kg

20 610 44 100 0.3

40 610 44 100 0.3

0.4

0.4

0.4

0.4

0.4

0.4

0.4

0.4

0.4

Article number

Luminaire Safety screen

AS1102001-30-30 + 83815R08-20

AS1102001-30-30 + 83815R08-40

AS1102001-30-30 + 83815R08-60

AS1102004-30-30 + 83815R10-20

AS1102004-30-30 + 83815R10-40

AS1102004-30-30 + 83815R10-60

AS1102007-30-30 + 83815R10-20

AS1102007-30-30 + 83815R10-40

AS1102007-30-30 + 83815R10-60

AS1102010-30-30 + 83815R10-20

AS1102010-30-30 + 83815R10-40

AS1102010-30-30 + 83815R10-60


Colour Rendering Index CRI > 95, CRI >80



UGR < 19





Safety screen IP 44

Made of clear tempered safety glass

IP 44 in closed ceiling systems




CRI > 80

R08, CO 95 mm, D 102 mm

6 W

6 W

6 W

10 W

10 W

10 W

13 W

13 W

13 W

18 W

18 W

18 W

20 350 50 100 0.3

40 350 50 100 0.3

60 350 50 100 0.3

20 610 55 100 0.3

40

60

20

20

R10, CO 120 mm, D 127 mm

13 W

13 W

13 W

18 W

18 W

18 W

29 W

29 W

20

20

20

20

20

40

60

20

40

60

20

40

610

610

880

880

880

1140

1140

1140

880

880

880

1140

1140

1140

1760

1760

55

55

63

63

63

60

60

60

63

63

63

60

60

60

57

57

100

100

100

100

100

100

100

100

125

125

125

125

125

125

125

125

0.3

0.3

0.3

0.3

0.3

0.3

0.3

0.3

0.4

0.4

0.4

0.4

0.4

0.4

0.4

0.4

AS1102101-30-30 + 83815R08-20

AS1102101-30-30 + 83815R08-40

AS1102101-30-30 + 83815R08-60

AS1102104-30-30 + 83815R08-20

AS1102104-30-30 + 83815R08-40

AS1102104-30-30 + 83815R08-60

AS1102107-30-30 + 83815R08-20

AS1102107-30-30 + 83815R08-40

AS1102107-30-30 + 83815R08-60

AS1102110-30-30 + 83815R08-20

AS1102110-30-30 + 83815R08-40

AS1102110-30-30 + 83815R08-60

AS1102113-30-30 + 83815R10-20

AS1102113-30-30 + 83815R10-40

AS1102113-30-30 + 83815R10-60

AS1102116-30-30 + 83815R10-20

AS1102116-30-30 + 83815R10-40

AS1102116-30-30 + 83815R10-60

AS1102119-30-30 + 83815R10-20

AS1102119-30-30 + 83815R10-40

29 W 60 1760 57 125 0.4 AS1102119-30-30 + 83815R10-60



LED gear box to be ordered seperately (right page)



AS1102107-30-30 +

83815R08-20

AS1102107-30-30 +

83815R08-40

AS1102107-30-30 +

83815R08-60 IP44

15°

6000 cd/klm

AS1102107-30-30 +

83815R08-20

H [m] Ø [m]

0,5 0,17

1,0

1,5

2,0

2,5

0,33

0,50

0,66

0,83

E m

[lx]

14205

3551

1578

888

568

15°

2500 cd/klm

AS1102107-30-30 +

83815R08-40

H [m] Ø [m]

0,5

1,0

0,35

0,70

1,5

2,0

2,5

1,04

1,39

1,74

E m

[lx]

5585

1396

621

349

223

15°

1500 cd/klm

AS1102107-30-30 +

83815R08-60

H [m] Ø [m]

0,5

1,0

0,55

1,11

1,5

2,0

2,5

1,66

2,22

2,77

E m

[lx]

2884

721

320

180

115



56

IP 44

RD

CO

D


LED

CRI > 80

LED gear boxes

CRI 95, 13 W

CRI 95, 22 W

CRI 95, 28 W

CRI 80, 6 W

CRI 80, 10 W

CRI 80, 13 W

CRI 80, 18 W

CRI 80, 29 W

α° Llm Llm/W RD mm kg

R08, CO 95 mm, D 102 mm

6 W

10 W

13 W

18 W

-

-

-

-

290

510

730

950

R10, CO 120 mm, D 127 mm

41

46

52

50

100

100

100

100

0.3

0.3

0.3

0.3

Article number

Luminaire

AS1102101-30-30

AS1102104-30-30

AS1102107-30-30

AS1102110-30-30

13 W

18 W

-

-

730 52 125 0.4

950 50 125 0.4

29 W - 1460 47 125 0.4 AS1102119-30-30


AS1102113-30-30

AS1102116-30-30

Diffusing screen

+ 86206R08

+ 86206R08

+ 86206R08

+ 86206R08


Colour Rendering Index CRI >80






+ 86206R10

+ 86206R10

+ 86206R10

Diffusing screen IP 44

Made of etched tempered safety glass for soft dispersion of light in the room.

IP 44 in closed ceiling systems



Cover ring white, RAL 9016 Article number without loop-in function with loop-in function standard DALI

83762

83763

83763

83764

83765

83763

83763

83763

83762-DD

83763-DD

83763-DD

-

83768-DD

83768-DD

83769-DD

83763-DD standard

83762-DV

83763-DV

83763-DV

83764-DV

83765-DV

83763-DV

83763-DV

83763-DV

DALI

83762-DD-DV

83763-DD-DV

83763-DD-DV

83768-DD-DV

-

83768-DD-DV

83769-DD-DV

83763-DD-DV






R08

R10

Article number

88022R08

88053R10


IP44

AS1202113-30-30 + 86206R10

15°

750 cd/klm



57 WILA

αbet spectra Directional Spotlights, recessed

ET

361°

DA

D

30°


LED

CRI > 95

13

α° Llm

R10, CO 120 mm, D 127 mm

20 600

Llm/W RD mm kg

W

W

W

W

W

W

W

W

AS1103004-33-30

43 135 0.5

41 135 0.5

37 135 0.5

37 135 0.5

Article number

AS1103009-33-30

AS1103010-33-30

AS1103011-33-30

AS1103012-33-30



Colour Rendering Index CRI > 95, CRI > 80


Luminaire luminous flux 570 - 1720 Llm

UGR < 19

Colour temperature 2700, 3000, 4000K



High polished reflector

Black glare control cone



Cover ring white, RAL 9016 CRI > 80

R10, CO 120 mm, D 127 mm

10 20 600

W

55 135 0.5

40 600 55 135 0.5

W

W

W

AS1103123-33-30

52 135 0.5

61 135 0.5

40 860 61 135 0.5

W

AS1103114-33-30

60 810 58 135 0.5

W

W

AS1103115-33-30

AS1103116-33-30

W

AS1103117-33-30

60 1050 55 135 0.5

W

AS1103118-33-30

20 1720 55 135 0.5

W

W

AS1103119-33-30

AS1103120-33-30

AS1103121-33-30

Use index -30 for 3000 K or -40 for 4000 K or -27 (2700 K, just 10-13 W), photometric data in the “products” on www.wila.com






CRI 95, 13 W

CRI 95, 22 W

CRI 95, 28 W

CRI 80, 10 W

CRI 80, 13 W

CRI 80, 18 W

CRI 80, 29 W without loop-in function with loop-in function standard DALI

83762

83763

83763

83765

83763

83763

83763

83762-DD

83763-DD

83763-DD

83768-DD

83768-DD

83769-DD


83762-DV 83762-DD-DV

83763-DV 83763-DD-DV

83763-DV 83763-DD-DV

83765-DV 83768-DD-DV

83763-DV 83768-DD-DV

83763-DV 83769-DD-DV

83763-DV 83763-DD-DV


R10

Article number

88053R10


IP20

AS1103007-33-30 AS1103008-33-30 AS1103009-33-30

15°

6000 cd/klm

15°

2500 cd/klm

15°

1500 cd/klm

AS1103007-33-30

H [m] Ø [m]

0,5

1,0

1,5

2,0

2,5

0,17 / 0,17

0,33 / 0,33

0,50 / 0,50

0,67 / 0,67

0,84 / 0,84

E m

[lx]

6864

1716

763

429

275

AS1103008-33-30

H [m] Ø [m]

0,5

1,0

1,5

2,0

2,5

0,35 / 0,35

0,70 / 0,70

1,06 / 1,06

1,41 / 1,41

1,76 / 1,76

E m

[lx]

2692

673

299

168

108

AS1103009-33-30

H [m] Ø [m]

0,5

1,0

1,5

2,0

2,5

0,56 / 0,56

1,12 / 1,12

1,68 / 1,68

2,24 / 2,24

2,79 / 2,79

E m

[lx]

1315

329

146

82

53



58

Brilliant Spotlight 7°

High light intensity 14.000 cd

For great height and for precise accentuation

Half-peak divergence angle α 7°

CRI > 80

LED 22 W, 3000 K

R10, CO 120 mm, D 127 mm

Article number AS1103100-33-30

IP20

AS1103100-33-30

90°

60°

90°

60°

45° 45°

30° 15° 15°

40000 cd/klm

30°

AS1103100-33-30

H [m] Ø [m]

1,0

2,0

3,0

4,0

5,0

0,13 / 0,13

0,25 / 0,25

0,38 / 0,38

0,50 / 0,50

0,63 / 0,63

E m

[lx]

3327

832

370

208

133

59 WILA

Product LED Puck

Retrofitting on site possible

60

IK 10 tested vandalism security

Broad range of light geometries

Corrosionprotected stainless steel housing

Protection rating IP 66 or

IP 67 for outdoor areas

Suitable for metallic handrail with a diameter of up to 100 mm

LED Puck 1.5 W

3000/4000 K

Service life 50,000 h (L70)

LED Puck

Flexible lighting solution for handrails

The LED lighting system was specifically developed for flush-mounted integration into the profile bottom of handrails.

Thanks to individually arranged LED units, the variable system can be used both with straight lines and all radii. Retrofitting is also possible. Depending on the design, the LED is protected against destruction by a lens of hardened polycarbonate.

The resilience of all visible parts corresponds to impact resistance class IK 10 (EN 62262).

61 WILA

LED Puck Spotlights, recessed

H

D



Half-peak divergence angle α1° crosswise, α2° in running direction

Lens made of polycarbonate (IP 66) or borosilicate (IP 67)

Constant colour temperature 3000, 4000 K



Corrosion protected stainless steel V4A Impact

Resistance IK 10 (EN 62262) at IP 66

Suitable for handrails with a diameter of 38-100 mm

Protection class IP 66 and IP 67 for outdoor spaces

Handrail

Round

Material thickness Mode of protection

< 2,5 mm

90°

60°

> 2,5 mm

< 2,5 mm

> 2,5 mm

IP66 IK10

IP67

IP66 IK10

IP67

IP66 IK10

IP67

IP66 IK10

IP67

Rectangular

< 2,5 mm

20°

90°

60°

> 2,5 mm

< 2,5 mm

> 2,5 mm

IP66 IK10

IP67

IP66 IK10

IP67

IP66 IK10

IP67

IP66 IK10

IP67

Ballast and electrical connection

External LED gear box IP 20, sold separately

Up to 20 Pucks per gear box (SELV)

Higher protection rating through combination with standard IP 66 boxes, e.g. from Spelsberg company

Installation instructions and maintenance

Suitable for metallic handrails

Mounting tool can be made available upon request

Retrofitting on site possible

Easy replacement of individual LED Pucks via screw threads

Theft protection with special tools for removal


LED α1° α2° Llm

3000 K - D 16 mm - H 15 mm

Llm/W

1,5 W 60 80 127 85

1,5 W 60

1,5 W 60

80

80

127

127

85

85

1,5 W 60

1,5 W 90

1,5 W 90

1,5 W 90

1,5 W 90

80

70

70

70

70

127

132

132

132

132

85

88

88

88

88

1,5 W 20/60 80

1,5 W 20/60 80

1,5 W 20/60 80

1,5 W 20/60 80

119

119

119

119

79

79

79

79

1,5 W 90

1,5 W 90

70

70

132

132

88

88

1,5 W 90 70 132 88

1,5 W 90 70 132 88

Use index -30 for 3000 K or -40 for 4000 K

Article number

MP1201001-70-30

MP1201021-70-30

MP1201002-70-30

MP1201022-70-30

MP1201003-70-30

MP1201023-70-30

MP1201004-70-30

MP1201024-70-30

MP1201011-70-30

MP1201031-70-30

MP1201012-70-30

MP1201032-70-30

MP1201013-70-30

MP1201033-70-30

MP1201014-70-30

MP1201034-70-30

MP1201001-70-30 MP1201003-70-30 MP1201011-70-30

15°

900 cd/klm

15°

800 cd/klm

30°

1000 cd/klm

LED gear boxes IP 20 for 1-20 Pucks

L 125 mm - W 79 mm - H 22 mm

Standard

DALI

Article number

83746

83747

62

Version for round handrails Version for rectangular handrails

Distribution of the LED Puck system in the various countries is handled exclusively by WILA distribution partners or other local partners.

Please contact WILA’s export department for further details by calling 0049 2371 823 0.

α 1

α 2

Beam spread angle: α2 refers to angle parallel to handrail, α1 refers to the perpendicular angle.

63 WILA

Appendix

Accessories

LED gear boxes

All LED luminaires shown in this brochure are sold without gear boxes to provide you with the highest degree of flexibility. Two product lines with distinct characteristics are available. The colour-coded LED gear boxes are coordinated with the corresponding luminaire to reduce errors during electrical installation. The electrical connection occurs via a plug connector that is protected against polarity reversal.

Premium version with loop-in function

WILA LED gear boxes, standard or DALI dimmable. High-quality version with gear box housing with loop-in function. Suitable for emergency lighting with central battery.

Standard version without loop-in function

Cost-effective alternative if loop-in function is not required, standard or

DALI dimmable. Suitable for emergency lighting with central battery.


α bet focus

CRI 90, 18 W

CRI 90, 25 W

CRI 90, 38 W

CRI 90, 50 W

α bet spectra

CRI 95, 13 W

CRI 95, 22 W

CRI 95, 28 W

CRI 80, 6 W

CRI 80, 10 W

CRI 80, 13 W

CRI 80, 18 W

CRI 80, 29 W without loop-in function with loop-in function standard DALI

83761

83762

83766

83767

83762

83763

83763

83764

83765

83763

83763

83763

83761-DD

83762-DD

83767-DD

83767-DD

83762-DD

83763-DD

83763-DD

-

83768-DD

83768-DD

83769-DD


83761-DV

83762-DV

83766-DV

83767-DV

83762-DV

83763-DV

83763-DV

83764-DV

83765-DV

83763-DV

83763-DV

83763-DV

83761-DD-DV

83762-DD-DV

83767-DD-DV

83767-DD-DV

83762-DD-DV

83763-DD-DV

83763-DD-DV

83768-DD-DV

83768-DD-DV

83769-DD-DV

83763-DD-DV

-

OH


Concrete mounting boxes allow the uninterrupted use of Downlights even in exposed concrete and plastered ceilings. Thus the ceiling appearance remains clean, and alternative surface-mounted luminaires are not required.

The two-part metal housing holds its shape and is designed for better heat transfer; it also allows accurate positioning and fast installation while meeting all legally required fire prevention regulations.


CO RD D L x W

α bet focus, square

R08

R10

95 140 200 -

120 165 260 -

OH H

Q10, 15/25 W 120 150 - 594 x 335 215 30

Q10, 37/50 W 120 200 - 594 x 335 215 30

α bet focus, round

R10, 15/25 W 120 150 - 594 x 335 215 30

R10, 37/50 W 120 200 - 594 x 335 215 30

α bet spectra

160 30

215 30

Article number

88085Q10

88088Q10

88083R10

88089R10

88022R08

88053R10

RD

W H

88085Q10

88088Q10

RD

H

88022R08

88053R10

CO

CO

D

L

OH

64

RD

W

H

88083R10

88089R10

CO

L

OH

Definitions

Catalogue information

Many luminaires are protected by comprehensive design registrations, patents and trademark protections. We reserve the right to change material, design and programme without notice. Statements are not warranted characteristics. Pictures and drawings are for illustrative purposes only.

Our terms and conditions of sale and delivery apply.

Luminaire luminous flux Llm

T he luminaire luminous flux (Llm) defines the usable light of the luminaire and is the decisive value in lighting design. As opposed to the lamp luminous flux (lm), the luminaire luminous flux (Llm) accounts for losses due to the design of the luminaire. WILA defines only the Llm value for all LED lamps. This value can be found both in data sheets and in the relevant ldt file.

System efficiency Llm/W

System efficiency defines the ratio of luminaire light flux (Llm) to power input (W). Efficiency losses due to gear boxes have already been taken into account by WILA in the Llm/W value.


For a qualified comparison between LED luminaires and luminaires with compact fluorescent lamps, it is important to ensure first that the products to be compared share approximately the same photometric data. Sample calculation:

LED luminous flux 2000 lm (100%) – system losses (light output ratio) = luminaire luminous flux 1720 Llm

LED efficiency 2000 lm : 29 W = 69 lm/W

System efficiency 1720 Llm : 31 W (29 W LED module + 2 W driver) =

55 Llm/W

Heat sink

LED module

2000 lm / 69 lm/W

Luminaire luminous flux 1720 Llm

System efficiency 55 Llm/W

Half-peak divergence angle α

For accent lighting, the half-peak divergence angle α is given rather than the beam spread angle. The half-peak divergence angle is defined as the angle of the rotationally symmetrical luminous intensity distribution at which the luminous intensity equals half of its maximum value.

The half-peak divergence angle is given as a full angle.

Beam spread characteristic super spot < 10° spot 10° - 20° flood 21° - 45° wide flood 46° - 55° very wide flood > 55°

UGR

The UGR method takes into account the layout of the luminaires in the room and evaluates the glare produced by the entire lighting system for a specific observer‘s position. WILA provides UGR values where the observer’s position is parallel to the longitudinal axis of the luminaire and the lamp/luminaire axis is parallel to the longer side of the room. The UGR method is implemented on the basis of simple tables. A low UGR value indicates that glare is negligible or non-existent.

Suitability examples UGR values:

< 16 for drafting rooms,

< 19 for offices and control rooms,

< 22 for precision industrial tasks

< 25 for light industrial tasks and

< 28 for heavy industrial tasks.

F marking

All WILA luminaires are suitable for use in or on ceilings of normal flammability and have so far been labelled with the F marking. With the publication of the EN 60598 standard, date of issue 09/2009, this marking is no longer applicable. After the end of the transitional phase on 12.04.2012, all luminaires without labelling are suitable for use in or on a ceiling of normal flammability. Luminaires that do not fulfil the thermal requirements will be marked with a new pictogram in the future.

Luminous intensity distribution

In order to give a clearer overview, the luminous intensity distribution curves have been divided into groups. Shown are the planes from 0° to 180°

(red line) and from 90° to 270° (blue line). The 0° plane is on the right.

Beam chart

For accent luminaires beam charts are shown. The angle of the spread out beam corresponds to the half-peak divergence angle of the luminous intensity. Diameter and mean illuminance Em [lx] can be read from the chart for each corresponding height.

Index

-DV = power pass-through

-DD = dimmable, Dali

Abbreviations/Dimensions

OH = overhang, maximum expansion of luminaire from the centre of reflector

W, W1 = width information

D = diameter

CO = ceiling, wall or recessed floor cut-out

CO W = width of ceiling or wall cut-out for recessed luminaires

CO L = length of ceiling or wall cut-out for recessed luminaires

RD = required installation depth for recessed luminaires under consideration of F conditions

H, H1= height information

K = colour temperature

L, L1 = length information

Q = reflector size, square

R = reflector size, round

Ra = colour rendering index

W = electrical power

α = half-peak divergence angle

γ = beam spread angle

Information about maintenance

The illuminance for a room/property must satisfy the published values according to DIN 12464-1 over the entire period of usage; this corresponds to the maintenance value. The electrical planner is responsible for determining the maintenance factor dependent upon the lighting system and the spatial conditions used and ensuring this with a maintenance schedule. Further details about maintenance can be found in the

“Knowledge” section of our website at www.wila.com

65 WILA