Oms office and communication

OFFICE AND COMMUNICATION

OFFICE AND COMMUNICATION

www.dreamlight.kiev.ua

HEAD OFFICE OMS, spol. s r. o. 906 02 Dojč 419 Slovakia Tel.: +421(0)34/694 0811, 694 0877 Fax: +421(0)34/694 0888 e-mail: info@oms.sk www.omslighting.com www.omselite.com

The office space as we know it today began to form at the beginning of the 20th century, substantially affected by the functionalist style Bauhaus. In the course of time it was “melt down” into a space defined by minimalism. Especially the generation of “white collars” and the gradual implementation of new technologies brought principal changes in the conception of the office space. The closed office spaces gradually begin to retreat in favour of the “open space” with isolated systems of partially closed cells. The new arrangement of the office space also brings changes of the demands for the illumination. The static solution is replaced by dynamic lighting, the modern luminaires and intelligent “light management systems” optimise the energy intensity of the space. The offices more than any time in the past resemble a space with a complex infrastructure. It becomes an inspiring space which is to stimulate higher performance efficiency, but at the same time to offer the possibility to have a rest. In this context, the light plays a key role: it stimulates higher performance efficiency, supports the ability to concentrate, it increases the feeling of comfort of the individual. The proper lighting of the office space, beginning with the desk up to the open space office exceeds the boundaries of the technical standards; it fulfils the aesthetic and ergonomic functions in a still greater extent and respects the individual needs of every workplace. The lighting quality is one of the key parameters when solving the architecture of the office space. The company OMS, spol.s r.o. responds to this fact by its own system of assessing the quality of the lighting system – the Lighting Quality Standard.

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OFFICE AND COMMUNICATION

The need to create a space for working together has its roots already in ancient Greece. In atriums with a circular plane the statesmen discussed and decided about crucial issues. The invention of book printing in 1450 changed the demands on the official rooms. Gathering documents required completing the desks with some closable furniture, bookshelves as well as shelf systems. Until the end of the 17th century the office became not only a purpose-built place for work, but also a fully-fledged representative space which differed affluent and important citizens from common clerks and copyists.

CONTENT LIGHTING AND HUMAN

CONTENT

8

ergonomics

10

Colour rendering index (CRI)

12

Glare prevention

14

Illumination level

16

Lighting uniformity

18

Harmonious distribution of brightness

20

emotion

24

Biological factor of illumination

26

Availability of daylight

26

Bluelight content

26

Daylight simulation

28

Illumination of room surfaces

30

Emotional lighting

32

ECOLOGY

34

Latest lamp technology

36

System efficacy of luminaire

38

Thermal output of lamp

39

Dangerous material content

40

Product life-time and maintenance

40

EFFICIENCY

42

Daylight sensor

44

Constant illuminance sensor

45

Presence detector

46

Calling of lighting scenes

48

ESPRIT

50

EXCEPTIONALITY

52

LIGHT in the OFFICE

56

RECEPTION AND FOYER

60

Open space office

64

Cellular office

68

Head office

72

Meeting And conference room

74

Relaxing zones

80

communications and corridors

84

Emergency and safety lightING

86

FaCADE

92

parking areas

96

SELECTIoN of THE RIGHT LIGHT SOURCE

98

LED FOR OFFICE

110

PRODUCTS

106

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lighting quality standard

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LIGHTING AND HUMAN New order in lighting world When designing the lighting system of the office space the lighting designer has to take into account, besides the legal standards, also other parameters which are no less important and affect the quality of the lighting solution of the whole office building. Until recently, the summary of these criteria has represented a chaotic system that has not offered any sufficient overview to the customer. The six-point assessment system of the lighting quality – Lighting Quality Standard developed by the company OMS, spol.s r.o., brings a new order to the chaotic lighting world.

Living by rules is important. Respecting laws is relevant as well. The ancient conflict of our world is driven by patterns and order; otherwise we become adrift by chaos that is present in our civilisation to these days. Whether the former or the latter concept is the right one, is an eternal question. One thing is certain: we in OMS love the order much more than chaos. That is why we have created a brand new lighting quality standard to help the customers, buyers and competitors better understand and evaluate lighting devices and solutions.

We have chosen more than twenty objectively quantifiable criteria and we are using them to evaluate both individual light fixtures and complete lighting solutions for different types of spaces. Each criterion has got its value and the result is the LQS Index. The higher the index is, the better the lighting device or solution is for use in a given space. Simple and intuitive approach to the agenda is exemplified by the LQS Composer, a unique tool to evaluate each and every lighting product.

There is a six-part program behind the acronym LQS. The chapters are named Ergonomics, Emotion, Ecology, Until now there was no unifying system used in the world of Efficiency, Esprit and Exceptionality or just 6 E’s. lighting for evaluation of eiher light fixtures or lighting solutions, If you imagine a house, the first four chapters are strong pillars and every producer has got its own way fot that. Consumers get representing criteria that are well-known in the world of lighting. lost in the vast array of criteria used and comparing neither prod- The remaining two are the roof, a powerful superstructure on the ucts nor solution was an option. OMS brings order to this chaos. top of these pillars. Together, they create an inseparable complex, We are prepared to help the LQS become a unified standard used because the parts of the whole cannot be perceived indepenby the whole lighting sector. No overstatement, the LQS is an dently, but only in their context. That is the basic philosophy of important step to a new level. Not just for our company, but for the LQS. Immerse in the 6 E’s and conceive the idea of living in a the branch and the giant world of lighting. place where rules are crystal clear.

LIGHTING AND HUMAN

THE KEY

IS ERGONOMICS

6

E efficiency

Examine the impact of light on the human eye.

Take the advantage of innovation in management and control of lighting.

The ability of a light source to reproduce colours of various objects realistically in comparison with ideal or natural light is the master rule in the world of lighting.

There is a lot of possibilities to choose the right interface for a desired effect of illumination. The decision should be made according to the type of space that is to be lit.

EMOTION Uncover the influence of light on human emotions. Strong scientific evidence proves the effect on mood and perception through features such as colour mixing, biologically effective lighting or illumination of room surfaces.

Ecology

esprit Realise that appearence matters and feel not ashamed when considering the design of luminaries. An object’s form of excellent aesthetic value becomes an important part of interior design in an architect’s perspective.

Exceptionality

Control energy consumption and environmental impact of light usage.

Consider every customer as a unique individual.

The ratio of energy converted to light is the measure of light source’s efficiency. This can be used for increasing product‘s life while reducing maintenance costs.

A customised solution adds more value and comfort. Trustworthy partners prepared for an unstable future of the market and the economic system‘s changes are a necessity in the world of lighting.

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ERGONOMICS The modern people spend more than half of their productive life at work. Therefore, respecting the ergonomic standards at workplaces (when designing the lighting system) is the most important premise. By adequate lighting we are able to reduce the undesirable glare, to improve performance efficiency and ability to concentrate, to prevent sight damage as well as stressful and dangerous situations.

The appropriate ergonomics of lighting at the workplace enables the easier identification of objects and items in the space. The knowledge of principles during designing an office building enables the developer and architect to make the correct choice. Nowadays nowhere else respecting the ergonomic standards appears as important as at the workplace where the modern people spend more than half of their productive life. The appropriate lighting of this place is able to reduce the undesirable glare, to improve the performance efficiency and ability to concentrate, to prevent sight damage as well as stressful and dangerous situations. The basic quantities which are taken into account by the ergonomics when creating optimal lighting conditions are – the Colour Rendering Index (CRI), glare prevention, illumination level, illumination of the task area and surrounding task area, lighting uniformity and harmonious distribution of brightness.

The suspended MODUL CLEARANCE with both direct and indirect distribution of luminous flux characteristically developed by the company OMS represents an ideal technological solution for office space illumination. The luminaire design which is transparent when switched off makes this fixture a unique element completing the whole atmosphere of the space.

ERGONOMICS

A modern office resembles a place with a complex infrastructure. It becomes a space of inspiration.

MODUL CLEARENCE

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COLOUR RENDERING INDEX The light and colours define the atmosphere in the room and therefore, ensuring the correct perception of colours is one of the key designer’s roles when solving the illumination. The influence of the artificial light source on the appearance of the colour objects is expressed by the colour rendering index (CRI) which indicates how truthfully the individual light sources are able to copy the object’s colouring compared with daylight. The CRI value of the luminaire is expressed by the average of the first eight factors R1 – R8 out of fifteen colour samples illuminated at first under a reference light source with an ideal value (CRI = 100) and under the light source being tested. The larger the difference of the truthfulness of colour reproduction is, the lower the CRI value of the tested light source is and thus, also its ability to display the object’s colouring truthfully.

LQS VALUE Colour rendering index (CRI) CRI

LQS Value

>90

5

80-90

4

70-80

3

60-70

2

40-60

1

20-40

0

From the practical point of view, the colour rendering index is one of the most important aspects when selecting the light source. The European standard EN 12 464-1 requires light sources with the colour rendering index of minimally 80 for a common office to use, lower values are admitted only for living spaces, corridors and warehouses. From the point of view of LQS the highest ranking is assigned to the light sources Comparison of colour rendering with CRI 90 and more. indexes – CRI. Left: CRI 70. Right: CRI 93

COLOUR RENDERING INDEX

One of the key tasks of the designer is to create such light conditions which will ensure the correct perception of colours. Concept “Brilliant Mix” The system Brilliant mix implemented to the OMS product CAPH was developed by the company OMS in collaboration with Osram Opto semiconductor (Regensburg, Germany) and Mazet (Jena, Germany). The Brilliant mix is a demonstration of what white light of high quality OMS is able to produce.

In the architects´ offices, rooms determined for technical drawing and in CAD rooms the correct colour rendering is of exceptional importance therefore, usage of light sources with colour rendering index 90 is recommended.

The principle of Brilliant mix is based on mixing three LED colours (“blue” white, “green” EQ-WHITE and “red” amber) in one luminaire and the result is a white colour with a high colour rendering index. By adding/ taking away individual channels it is simultaneously possible to change the correlated colour temperature of the white light in a wide range (2,700 – 4,000 K). It is important that every adjusted colour temperature has a durably high CRI of more than 90 and a relatively high efficacy (lm/W). The whole concept is completed with electronics which are able to control each channel independently and a colour sensor which permanently evaluates the CRI and CCT data. If the values differ from those being selected, the sensor gives the electronic a command for correction. In this way permanent monitoring of the light quality during the whole LED life cycle is ensured. Using the concept Brilliant mix we can achieve that all luminaires installed in one room have the exact same CCT value permanently.

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Glare prevention Glare is a negative visual perception aroused by light surfaces in the field of vision. Preventing it or minimising its occurrence is particularly important not only from the point of view of the visual comfort but also the safety. The excessive direct and reflected glare at the workplace cause fatigue, visual impairment, it can lead to reduced concentration, it makes the text visibility on the PC monitor as well as reading a printed text on the glossy paper more difficult. Preventing the disruptive glare belongs therefore to the basic designer’s tasks when planning a light solution. In the office spaces the glare is especially undesirable in the spaces where visual display units are placed. The excessive light can decrease the contrast of the image on the visual display units by veiling reflections caused by dazzling of the screen surface, the luminance of the luminaires and bright surfaces which are reflected on the screen. The requirements on the visual quality of the screens concerning the undesirable reflections are stated by the European standard ISO 9241-307.

LQS VALUE Glare prevention Glare prevention

LQS Value

URG<16

5

URG<19

4

URG<22

3

URG<25

2

URG<28

1

URG>28

0

Reducing the risk of exposing the employees to the glare begins with the correct organisation of the workplace. Placing the desks rectangular to the glass window areas for the daylight not to reflect directly to the eye and to fit them out with the blinds are the basic measures of the glare prevention.

Another way how to prevent glare is a correct selection of the lighting fixture and its appropriate placement in the space. It is recommended to choose luminaires with low luminance and mat surface and to place them in such a way that the ray of light will not reflect from the objects directly to the eye, e.g. when sitting at the desk while carrying out everyday activities.

The correct illumination of the task area creates optimal conditions for employees to work. You will prevent their feeling of fatigue, reduction of concentration and you will also prevent situations in which they could make unnecessary failures Screen high state luminance

High luminance screen L > 200 cd/m2

Medium luminance screen L ≤ 200 cd/m2

≤ 3000 cd/m2

≤ 1500 cd/m2

≤ 1500 cd/m2

≤ 1000 cd/m2

Case A Values for spaces with common demands on the correct colour rendering and details of the depicted information that is relevant e.g. for all types of offices.

Case B Values for spaces with increased demands on the colour rendering, precise work and details of the depicted information, e.g. technical drawing, CAD workstations, etc.

The limit values of the lighting fixtures´ luminance in the angle of 65° and more from the vertical axis.

Excessive glare causes fatigue, visual impairment; it can lead to reduced concentration and make the text visibility

Glare prevention

on the PC monitor more difficult.

The suspended LED luminaire MODUL BOX MAX with direct/indirect distribution of diffuse light through microprism is an ideal solution for the office spaces.

Unified Glare Rating The method of Unified Glare Rating (UGR) is used for uniform qualification of the rate of the psychological glare. This method was defined by the Comission Internationale de l´Eclairage. 0.25 L2Ω UGR = 8log [ ––––– ∑ ––––– ] Lb p2

⎛ 0,25 L2ω ⎞ UGR = 8 log10 ⎜⎜ ∑ p 2 ⎟⎟ ⎝ LB ⎠

Where L stands for luminance of lighting parts of every luminaire in the direction of the eye (in candelas per square meter). Ω is a cut-off angle of a luminaire relative to the eye of an observer (in sr). P is a Guth factor of spatial position of every single luminaire relative to the field of view. Finally, L expresses background illuminance (in candelas per square meter).

The European standard EN 12464-1 states the UGR maximally 16 for workplaces with high demands on precision and a high rate of visual load (technical drawing), for common workplaces (registration of documents, CAD workstations, conference halls and meeting rooms) UGR 19, for receptions UGR 22 and for archives 25. LQS assigns the highest rating of 5 points to solutions achieving UGR maximally 16 and less. Microprism The suspended LED luminaire MODUL BOX MAX with direct/ indirect distribution of diffuse light through microprism is an ideal solution for the office spaces. The microprism represents the most effective method for the diffuse light distribution as the light breaks at the end of the material, on the so called optical prisms which results in its uniform distribution. The soft diffuse light is more pleasant for the human eye, it strains less and in this way the rate of psychological load UGR is reduced.

LIGHT Direct glare causes excessive luminance, e.g. from incorrectly placed luminaires or from unshielded general-diffuse lamps. It arouses a feeling of psychological as well as visual discomfort and therefore it is inevitable to reduce it to minimum.

Reflected glare represents the same psychological and physiological load as the direct glare and moreover it reduces the capability to perceive contrasts. It is aroused by a disruptive reflection of light falling from unshielded windows from the glossy surfaces e.g. Prismatic glossy paper or monitor).

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Correct illumination of the space enables correct perception of visual information, recognising objects and faces. ILLUMINATION LEVEL

Task Area From the point of view of The light substantially affects demands on the illumination the feeling of people’s of the office space, it is the comfort; it influences their desk or the task area that plays psyche, performance, ability the most important role. The to concentrate and regeneEuropean standard EN 12464-1 ration. The correct illuminastates the value of minimally tion of the space makes it 500 lx for the common adminpossible to perceive the visual istrative activities and tightens information, recognising the the requirements on the illumiobject shapes and faces cor- nation level to the value of 750 rectly. In general the optimal lx for those task areas where solution is considered when time-demanding tasks, tasks the luminaire in the office requiring precision, productivity, spaces is placed towards the concentration are carried out working surface slightly from or where the visual capability of the left of the employee’s the employee is reduced. view. When the situation is solved like this the employees The appropriate organisation do not cast a shadow upon of the task area can prevent the desk when they are wri- damaging the people’s sense ting and also good visibility of the pen’s nib is ensured. Such a direction of the luminous flux is determined for the right-handers; the left-handers are often disadvantaged in this case. However, currently there are lighting solutions which enable adjusting the luminous flux to create the same conditions also for the left-handers.

LQS VALUE Illumination level (task area) Illumination level (task area)

LQS Value

Yes

5

No

0

The insufficient or erroneous lighting of the office space can bear a negative impact not only on the quality of employees´ activities but also on their state of health and mind. The modern lighting solutions are based on the research results showing that natural light is the decisive factor for the well-being of every individual. This is the reason why the designers attempt to get as close as possible to its properties.

Illumination level

of sight and support the employees´ concentration at the workplace. If the task area includes the PC monitor and a paper document the optimal distance of the space for the monitor and document is 40 to 80 centimetres for them place of the task area immediate surrounding area (band with a width of at least 0,5 m around the task area within the visual field) background (at least 3 m wide adjacent to the immediate surrounding area within the limits of the space)

to be approximately in the same distance from the eye. Larger differences of distance place heavier demands on the adaptation capability of the human eye and bring feelings of fatigue.

Surrounding Area The correct illumination of surrounding area (band with a width of at least 0.5 m around the task area within the visual field) and the background (at least 3 m wide adjacent to the immediate surrounding area within the limits of the space) is an important factor in the office space. Their correct illuminaIlluminance on the task area Etask lx

tion can prevent problems with perceiving the objects, it can minimise the damage of the sense of sight, developing stress and strain.

nance distribution in the field of vision. The standard EN 124641 states for the surrounding area a 65 – 75 % rate of the task area illumination, for the background area the boundary is minimally one third of the surrounding area value.

The illuminance of the surrounding area and the background is connected with the illuminance of the task area and LQS assigns the spaces meeting is to ensure a balanced lumirequirements of the standard 5 points; those failing to fulfil the illumination value level 0 points. Illuminance on immediate surrounding areas lx

≥ 750

500

500

300

300

200

200

150

150

Etask

100

Etask

≤ 50

Etask

The freestanding luminaire MODUL BOX MAX is used as a supplementary lighting fixture which serves for illuminating the task area and helps achieving constant lighting conditions. Its bottom part is determined for lighting the working area; it

has a sufficient luminous flux for reaching 500 or 750 lx required by the standard. The upper part is created by two specially designed asymmetric reflectors to which high-performance LED chips are built in. The high luminous flux of the upper part is asymmetrically directed to the ceiling over the desk and by the diffuse distribution it is directed downwards. The ceiling over the luminaire and over the whole workplace is thus widely uniformly illuminated. The result for the person in the room or the person sitting at the desk is an ideal combination of direct and indirect illumination and very good uniformity of the workplace area lighting. modul box freestanding

A supplementary luminaire is to be placed in such a way that its luminous flux directs towards the workplace area slightly from the left in direction of the employee’s view. When the placement is solved like this the employee does not cast a shadow upon the desk and also good visibility of the pen’s nib is ensured.

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LQS VALUE Illumination level (surrounding area) Illumination level (surrounding area)

LQS Value

Yes

5

No

0

A uniformly illuminated space is perceived as a consistent one. Big differences in the rate of illumination create the impression of a broken space and tire the sight.

Lighting uniformity The uniform illumination affects our ability to perceive the surrounding area and to orient ourselves inside of it. We perceive a uniformly illuminated space a consistent one, on the contrary, big differences in the illumination rate create the impression of a broken space and increase demands on the adaptation capability of the human eye. The lighting uniformity can be expressed as a ratio of the minimal and average illuminance of the space assessed. The closer their values are, the more uniform the illuminance of the space is. An optimal state can be achieved by selecting an appropriate type and number of luminaires and their correct distribution. From the point of view of type of luminaires the direct and indirect lighting fixtures with a wide luminous intensity curve seem to be the most suitable. The lighting uniformity index is adapted by the European standard 12464-1 which, as in the case of the illumination level, places heavier demands on workplaces requiring precision (e.g. technical drawing). For these ones it states the index with a minimal value of 0.7. 90

LQS VALUE Lighting uniformity Lighting uniformity

LQS Value

Yes

5

No

0

From the point of view of LQS, the optimal lighting solution meeting the standard is assessed by 5 points, those failing to fulfil requirements by 0 points.

90 75

75 200

60

60

300 400

45

45

cd/klm

30

15 0 C0.0-C180.0

15

30 C90.0-C270.0

Luminous intensity curve

Lighting uniformity

A specialised software dialux enables a simulation of the lighting uniformity of the space already during the design phase of the lighting system.

The uniform illumination affects our ability to perceive the surrounding area and to orient ourselves inside of it. gacrux GACRUX

An outstanding lighting uniformity in the offices that have to fulfil demanding requirements of the standard can be achieved by placing a lighting fixture with a cosine luminous intensity curve. These requirements are fulfilled by a recessed ceiling luminaire GACRUX with a direct characteristic of the luminous flux distribution.

Already the luminous intensity curve gives the designer a hint about the resulting effect.

The customer acquires the visualisation of the room space including the definitions of the material surfaces and parts of the interior as well.

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Harmonious distribution of brightness affects sharpness of vision and enables the human eye to perceive contrast. The low contrast reduces the visual stimulation, causes eye fatigue and in this way it affects the performance efficiency negatively.

HARMONIOUS DISTRIBUTION OF BRIGHTNESS People acquire up to 80 % of information through their sense of vision therefore lighting is the key factor for a correct visual perception. Brightness is the only quantity to which the human eye responds and therefore its distribution is the key factor when planning the illumination in every type of space including the office buildings. Harmonious distribution of brightness affects sharpness of vision and enables the human eye to perceive the contrast. Unequal distribution of brightness places increased demands on the adaptation ability of the human eye, the low contrast reduces the visual stimulation, causes eye fatigue and in this way it affects the performance efficiency at the workplace. Excessive brightness in the space causes an undesirable glare.

LQS VALUE Harmonious distribution of brightness Harmonious distribution of brightnees (contrast)

LQS Value

Em(wall)>150lx with Uo>0.3 Em(ceiling>75lx with Uo>0,3

5

Em(wall)>75lx with Uo>0.3 Em(ceiling>50lx with Uo>0,3

4

Em(wall)>75lx with Uo>0.1 Em(ceiling>50lx with Uo>0,1

3

Em(wall)>50lx with Uo>0.1 Em(ceiling>30lx with Uo>0.1

2

Em(wall)>30lx with Uo>0.1 Em(ceiling>10lx with Uo>0.1

1

Em(wall)<30lx with Uo>0.1 Em(ceiling<10lx with Uo>0.1

0

To achieve an optimal distribution of brightness in the space means to begin with a correct organisation of the interior and its design. The types of the material and colour used are decisive. In general, it is recommended to use brighter colours because dark walls, ceilings as well as furniture have, in comparison to the brighter materials, a lower reflectance and therefore they can cause depressive feelings. An appropriate selection of the luminaire (ceiling or suspension

Luminaires with direct characteristic of the luminous flow distribution are insufficient for the harmonious distribution of brightness in the office.

HARMONIOUS DISTRIBUTION OF BRIGHTNESS

Optimal values for distribution of brightness in the space can be achieved by using suspension luminaires with both direct and indirect characteristics of the luminous flux distribution.

A similar result as with the suspension luminaires with direct and indirect characteristics of the luminous flux distribution can be achieved with recessed luminaires with a specially shaped diffuser.

Brightness is the only quantity the human eye responds to. Its uniform distribution in the office space has key importance for a correct visual perception. lighting fixtures with direct/ indirect distribution of the luminous flux) and their correct deployment are a key factor for the harmonious distribution of brightness.

MIRZAM

141

Terzo

140

The standards for harmonious distribution of brightness are defined by the norm EN 124641 which recommends the value of the reflection factor of the main interior surfaces 0.7 to 0.9; for the walls 0.5 to 0.8 and for the floor 0.2 to 0.4. For the value of the reflection factor of large objects (e.g. furniture) it states the range of 0.2 to 0.7. The standard EN 12464-1 also determines the values for maintained illuminance of the main surfaces in the office spaces. For the illuminance of the walls it determines minimally 50 lx (for offices up to 75 lx) with the uniformity of ≼ 0.10, for ceilings 30 lx (for offices up to 50 lx) with the uniformity of ≼ 0.10. Lower values in an office building are allowed only in the warehouses. The optimal illumination of the workplace fulfilling the requirements of the standards on harmonious distribution of brightness can also be achieved nowadays by installing the recessed luminaires that are able to reflect sufficient amounts of light to the ceiling. The luminaire TERZO and MIRZAM perfectly interpret the philosophy of illuminating a modern office space. To achieve an optimal distribution of brightness in the space means to begin with a correct organisation of the interior and its design. The types of the material and colour used are decisive.

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Minimum lighting requirements recommended by EN 12464 Type of area, task or activity

Em [ lx ]

UGR

U0

CRI

Specific requirements

Offices Filing, copying, etc.

300

19

0.4

80

Writing, typing, reading, data processing

500

19

0.6

80

Technical drawing

750

16

0.7

80

CAD work stations

500

19

0.6

80

VDU work (see Glare prevention)

Conference and meeting rooms

500

19

0.6

80

Lighting should be controllable.

Reception desk

300

22

0.6

80

Archives

200

25

0.4

80

VDU work (see Glare prevention)

Public areas Entrance halls

100

22

0.4

80

Cloakrooms

200

25

0.4

80

Waiting rooms

200

22

0.4

80

Reception/cashier desk, porters desk

300

22

0.6

80

UGR only if applicable.

Traffic zones inside buildings Circulation areas and corridors

100

28

0.4

40

1. Illuminance at floor level.

2. Ra and UGR similar to adjacent areas.

3. 150 lx if there are vehicles on the route.

4. The lighting of exits and entrances shall provide a transition zone to avoid

sudden changes in illuminance between inside and outside by day or night.

5. Care should be taken to avoid glare to drivers and pedestrians.

Stairs, escalators, travolators

100

25

0.4

40

Requires enhanced contrast on the steps.

Elevators, lifts

100

25

0.4

40

Light level in front of the lift should be at least Ēm = 200 lx.

Loading ramps/bays

150

25

0.4

40

Other rooms Canteens

200

22

0.4

80

Kitchen

500

22

0.6

80

Break rooms

100

22

0.4

80

Rooms for physical exercise

300

22

0.4

80

Cloakrooms, washrooms, bathrooms, toilets

200

25

0.4

80 In each individual toilet if these are fully enclosed.

Sick bay

500

19

0.6

80

Rooms for medical attention

500

16

0.6

90

Plant rooms, switch gear rooms

200

25

0.4

60

Mail rooms, telephone switch places

500

19

0.6

80

Store and stockrooms

100

25

0.4

60

Dispatch packing handling areas

300

25

0.6

60

4.000 K <TCP < 5.000 K

200 lx if continuously occupied.

Places of public assembly - Public car parks

Traffic lanes

75

25

0.4

40

1. Illuminances at floor level.

2. Safety colours shall be recognisable.

Parking areas

1. Illuminances at floor level.

75

-

0.4

40

2. Safety colours shall be recognisable.

3. A high vertical illuminance increases recognition of peoples

In/out ramps (at night)

75

25

0.4

40

faces and therefore the feeling of safety. 1. Illuminances at floor level.

2. Safety colours shall be recognisable.

In/out ramps (during the day)

1. Illuminances at floor level.

300

25

0.4

40

2. Safety colours shall be recognisable.

Ticket office

1. Reflections in the windows shall be avoided.

300

19

0.6

80

2. Glare from outside shall be prevented.

Minimum lighting requirements recommended by EN 12464

12/13

EMOTION The light is able to substantially affect the ability of people to perceive, to change their mood, to arouse a feeling of visual and psychological well-being and to regulate the human circadian rhythm. This knowledge has enlarged the perception of the task of artificial illumination by a new dimension. Its role today is not only to illuminate the space but also to be effective biologically.

The scientific research during recent decades has substantially changed the view at the task of illumination and its influence on people. Light is able to fundamentally affect not only people’s ability to perceive things around but also to change the mood, to arouse a feeling of comfort or vice versa discomfort and to regulate the human circadian rhythm. All this knowledge has enlarged the perception of the task of the artificial illumination by a new dimension – to be biologically active. When designing a lighting solution of an office space it is from understandable reasons inevitable to take into account both requirements equally. By mixing the light of various colours and utilising the ambient or accent lighting we can achieve the visual and psychological wellbeing of the employees without any negative influence on their regeneration capabilities. LQS has a holistic approach to the illumination of spaces. It perceives its solution as a whole, with the goal to copy the properties of the natural light as truthfully as possible.

EMOTION

Work with light is something like an artistic creation. When the light designer masters it well, he/she is able to create a space where the employees will feel comfortable and happy. AVAILABILITY OF DAYLIGHT Working people spend a great part of their life in closed spaces. That is the reason why the quality of the artificial light is attributed extraordinary importance. As we have already mentioned on several pages, the scientific research has unambiguously confirmed the positive impact of the natural light on the feeling of people’s visual and psychological wellbeing, their performance efficiency, the ability to concentrate and last but not least also the ability to regenerate. In most office spaces the requirement for availability of daylight is a

rule. The task of the artificial lighting is to fulfil the supplementary function or to replace it where it is fully absent. The most important moment when planning the illumination for any space is a correct solution, the luminaire type itself is of second-rate importance, if it is able to ensure the required result. In general, it is valid that the human eye responds best to large continuous illuminated surfaces and the white diffused light reflected from the ceiling and walls. This type of illumination simulates the properties of the natural light in the best way.

24/25

The discovery of the third type of receptors in the human eye that are sensitive to the blue part of the light spectrum enabled the developing of biologically effective luminaires. modul ray

118

Biological factor of illumination Bluelight content Revealing the function of the third type of receptors in the human eye belongs among the biggest discoveries of the modern science. They are able to affect the production of melatonin, a hormone controlling the circadian rhythm of people. These receptors are sensitive to that part of the light spectrum which has the wavelength of 464 nanometres, i.e. the blue light. This knowledge became the basis for the luminaire producers – the lighting fixtures with a proper proportion of the blue part of the artificial lighting spectrum are able to affect the human activity effectively. From the point of view of evolution the blue light signals if it is day or night to the human organism. In the spaces with a limited access of daylight, its presence is a key factor that significantly contributes to the feeling people’s well-being. Its shortage stimulates the production of melatonin and signals to the human organism that it is time for a rest and induces an increased need for sleep.

LQS VALUE Biological factor of illumination Biological factor of illumination

LQS Value

availability of daylight

0/1 (No/Yes)

blue light content

0/1 (No/Yes)

daylight simulation

0/1 (No/Yes)

dynamic lighting

0/1 (No/Yes)

tunable white

0/1 (No/Yes)

The absence of the blue light in the spectrum can lead to reduced performance and disruption of the circadian rhythm of the human organism. On the contrary, its correct ratio in the light spectrum from an artificial

light source can stimulate the performance efficiency and positively affect the employees´ feeling of well-being. From this point of view especially the workplaces with a three-shift operation represent a challenge where a sufficient amount of the blue light is able to adjust the biorhythm of those employees who are working during the night shifts. The proportion of the blue light in the light spectrum is subject to changes during the day. The correctly planned light solution can respond to this fact through simulation of the daylight.

Influence of daylight on the human body 3 a.m.

6 a.m. noon 6 p.m. midnight

9 a.m.

6 a.m. noon 6 p.m. cortisol level

midnight 6 a.m. melatonin level

During morning hours the human organism produces the hormone cortisol which stimulates metabolism. Its concentration in blood reaches its maximum at about 9 a.m., then during the rest of the day its content continually decreases. Melatonin, also called the hormone of sleep, is produced by the human organism also during the night and its concentration in the human organism culminates at 3 a.m. 0° ~ 30° No effect 30° ~ 45° Insufficient effect 45° ~ 90° Optimal effect 90° ~ 180° Undesirable effect – risk that glare can develop The third type of the photoreceptors in the human eye is sensitive to that part of the light spectrum which has the wavelength of 464 nanometres, i.e. the blue light. These receptors have influence on creating melatonin, a hormone controlling the circadian rhythm of people.

Biological factor of illumination

A correct ratio of the blue light in the light spectrum from an artificial light source is able to stimulate the performance efficiency and affect positively the feeling of the employees´ psychological well-being.

The latest examination of the standard for the illumination of internal workplaces recommends a combination of direct and diffused lighting which is the most suitable for the offices. The suspended lighting fixture fulfils these specific requirements in full extent. MODUL SPIKER It is a LED luminaire with two modules. The bottom module directs the luminous flux directly downwards and ensures optimal illuminance of the workplace. The backlit side diffuser is a source with specially adapted spectrum to support the bluelight content. Its vertical displacement ensures optimal luminance levels in the field of vision and at the same time a higher level of the vertical illuminance. The luminous flux flowing out of the luminaire in a specific direction helps, together with vertical surfaces of the room, direct a certain part of the luminous flux to the human eye in the required angle. It is able to directly affect the receptor in the eye sensitive to light (the so called third photoreceptor) that controls the internal biorhythm of people and in this way it is able to optimise their performance efficiency during working hours. The luminaire design itself, suitably selected light sources and appropriate directing the luminous flux create a concept of the so called biologically effective lighting. Modul RAY An innovative and compact design and a sophisticated mechanical structure are the basic attributes of the unique luminaire Modul RAY. The luminaire can be dimmable if necessary and can be fitted with various types of sensors and tools of intelligent control.

Modul SPIKER From the point of view of design, the Module SPIKER represents an interesting and biologically effective light. The direct light directed from the LED sources located in the bottom part of the construction is completed by a microprismatic refractor that alters the direct light into soft, diffused light. The side optics is designed in such a way that it directs the blue spectrum of the light directly to the human eye under an optimal angle and affects the third photoreceptor responsible for correct operation of the human circadian rhythm. The positive biological effect of this luminaire arrives especially with a very cold light with correlated colour temperature 6,500 K.

modul spiker

117

Melatonin Melatonin makes us feel drowsy, slows down bodily functions and lowers activity levels to facilitate a good night’s sleep. It also ensures that a large number of metabolic processes are wound down. Body temperature falls; the organism, as it were, is put on the back burner. In this phase, the body secretes growth hormones that repair cells at night. Cortisol Cortisol is a stress hormone, produced from around 3 a.m. onwards in the adrenal cortex. It stimulates metabolism again and programmes the body for day-time operation. The first light of the day then stimulates the third receptor in the eye and suppresses the production of melatonin in the pineal gland. At the same time, the pituitary gland makes sure the body secretes more serotonin. Serotonin Serotonin acts as a mood-enhancing, motivating messenger. While the level of cortisol in the blood falls during the day in a counter-cycle to melatonin, serotonin helps us achieve a number of performance peaks. When daylight fades, the internal clock switches to night. However, if our body does not get enough light during the day, it produces only a low level of melatonin. As a result, we sleep badly, we wake feeling unrested, we are tired during the day and lack energy and motivation. Insufficient exposure to stimulating light during autumn and winter can turn the process into a downward spiral. At that time of year, some people develop seasonal affective disorder (SAD). Their internal clock misses its cues because the hormonal balance in the brain is upset.

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baten

140

Daylight simulation As we have mentioned several times, the scientific research confirmed that the daylight is the most typical type of light for people. The effort to adapt the artificial lighting to its properties results from this knowledge. That is the reason why, when designing the light system in the office spaces, we utilise the function of daylight simulation. The natural daylight is not monotonous. It changes its properties not only in dependence on the season of the year but it is also dependent on the cloudiness during the day. Its intensity and colour change during the day. All these factors affect our perception of the space and objects inside of it. The daylight simulation can be achieved by various methods with the same goal: to achieve such an intensity and light colour that copies the properties of the daylight as truthfully as possible. At the beginning of the working hours higher illuminance with a high proportion of the cold light that will energise to a higher performance is desirable. On the contrary, during the lunch time it is suitable to increase the colour temperature and to strengthen the feeling of employees’ relaxation. The afternoon decline can be avoided by increasing the proportion of the cold light which is replaced by warmer tones preparing the human organism for rest at the end of the working hours.

The daylight simulation is often implemented with the daylight sensor that assesses the lighting intensity in the room during the day and according to this it increases or reduces the luminaire output in the light system. In this way constant illuminance of the space in compliance with the standard is ensured during the whole day. An assumption for simulating the daylight in the office spaces is the utilisation of the luminaires with the function dynamic light which can change the lighting intensity and tunable white which allows altering the correlated colour temperature in the room. The dynamic lighting in the luminaire is ensured by the DALI driver which is able to switch on or dim the light source from the value 0 % to 100 %. The function of the tunable white is ensured by two light sources radiating the light with different correlated colour temperature (cool white 6,500K and warm white 3,000 K). Through changing the output of individual light sources we can achieve various levels of the white colour temperature. E.g. at a 50% performance of both light sources the luminaire radiates neutral light with correlated colour temperature 4,000K. This solution enables creating illumination in the office space that corresponds to its task and emotional state we want to evoke in the persons who are present.

The goal of the daylight simulation is to achieve such a light intensity and colour that copies the properties of the daylight as truthfully as possible.

lighting level (lx)

900

800

700

600

500

Biological factor of illumination

8:00

8:00

cool light (5500 K) warm light (3000 K)

10:00

0

The natural light is not monotonous. It changes its properties not only in dependence on the season of the year but also depends on the cloudiness during the day. Its intensity and colour also change during the day.

12:00

8:00

Good morning Cool, fresh light raises the energy level of people coming into the office and provides a good start to the day.

13:30

Lunch time A short rest helps us to recharge out batteries. The light level decreases and the warm light facilitates relaxation.

17:30

Post-lunch dip After lunch,we usually feel sleepy. The light level rises again and changes to cool white to counter the „post lunch dip“.

Happy hour Just before the end of the working day a change to cooler white light provides an alertness boost ahead of the journey home. For people working late, warm white light creates a pleasent „homely“ atmosphere.

13:30

12:00

12:00

17:30

14:00

16:00

18:00

28/29

mirzam

141

LQS VALUE

Illumination of room surfaces The recommended lighting of surfaces in the office space is bound to the general lighting of the workplace. Lower values the illumination of the wall and especially of the ceiling could make an impression of too much darkness and arouse a feeling of depression of the employees. On the contrary, when we illuminate them e.g. by luminaires with an indirect characteristic of luminous flux distribution, we achieve optical enlargement of the space and also improvement of the employees´ feeling of comfort. In the case of lighting the surfaces in the office spaces, the summary of the British architects´ recommendations known under the abbreviation LG7 (Lighting Guide 7) determines the standard. When defining them they proceed from the need of using the direct/indirect luminaires and reflected light, they define the recommended values of the surface reflectance and the space illuminance. From the point of view of lighting the surfaces in the space, LQS exceeds the requirements of these recommendations and places increased emphasis on correct illumination of all surfaces in the room.

Relative ceiling illuminance: min 30% of workplace illuminace

Relative wall illuminance: min 50% of workplace illuminace

Vertical illumination Vertical illumination

LQS Value

Evavg > 0.5 Ehavg (Wall LG7) Evavg >150lx

5

Evavg > 0.5 Ehavg (Wall LG7)

4

Evavg > 0.4 Ehavg

3

Evavg > 0.3 Ehavg

2

Evavg > 0.1 Ehavg

1

Evavg < 0.1 Ehavg

0

Workplace illuminance 100 %

By a correct ratio of the illuminance of all surfaces in the room we can prevent both the psychological and eye fatigue and damaging the human sight as well.

Illumination of room surfaces

Vertical Illumination The vertical illumination which is based on the ability of the human eye to respond to the light falling from above plays an important role for the lighting of an office. Using luminaires emphasising the vertical surfaces, we achieve optical brightening and enlarging the space. It will enable the employees to recognise shapes and faces better and it will make their orientation in the space easier. The vertical illuminance fulfils the LG7 demands and achieves 50 % of the working place’s horizontal illuminance value. LQS assesses the spaces with satisfactory illuminance with 4 points. The recessed luminaire RELAX ASYMMETRIC LED with a strongly asymmetric radiation characteristic can be a suitable type of lighting fixture that meets the demands on vertical lighting of walls. The most important part of the whole luminaire is the asymmetric reflector in which the line LED. If it is placed on the wall correctly (approximately to one third of

the wall’s height), the photometric luminaire characteristic will ensure a very uniformly illuminated wall almost from the top to the bottom. Illumination of Ceiling In the framework of the space, the ceiling represents a large reflection area and therefore it is necessary to make use of its potential and to count on indirect luminaires when planning its illumination. The reflected light creates an impression of homogeneity and it most truthfully copies the properties of natural light. A suitable solution is e.g. the recessed luminaire MIRZAM with direct and indirect distribution of the luminous flux and with the function tunable white. A protruding diffuser of this type of luminaire enables to direct part of the luminous flux to the ceiling and in this way to replace the traditional type of illuminating an area with a suspension luminaire. From the point of view of LG7 the ceiling illuminance should achieve the amount of 30 % of the value for horizontal illuminance of the working surface. LQS places even heavier demands for the ceiling illuminance and assesses the spaces with the ceiling illuminance of 75 lx with the score of 5 points.

LQS VALUE Ceiling illumination The classical solution of the office lighting with recessed luminaires with a parabolic louvre ensures sufficient illumination of the workplace but the upper parts of the walls and the ceiling remain dark. Such illumination causes a feeling of a cave effect and makes the room optically smaller. Such a lighting system does not fulfil the LG7 recommendations.

The optimal solution involving types of the luminaires which are suspended, with both direct and indirect characteristics of the luminous flux distribution.

The new solution involving the latest types of the LED luminaires which are recessed, with direct and indirect distribution of the luminous flux direct part of the luminous flux towards the ceiling. The ceiling is sufficiently illuminated and the room seems optically larger. The space that is illuminated in this way fulfils the LG7 recommendations.

30/31

Ceiling illumination

LQS Value

Ehavg > 0.3 Ehavg (Ceiling LG7) Ehavg > 75lx

5

Ehavg > 0.3 Ehavg (Ceiling LG7)

4

Ehavg > 0.2 Ehavg

3

Ehavg > 0.15 Ehavg

2

Ehavg > 0.1 Ehavg

1

Ehavg < 0.1 Ehavg

0

The ambient illumination completes the overall atmosphere of the space according to the customer’s vision and the interior designer’s as well. The accent lighting directs the attention to the selected object and emphasises its exceptionality.

EMOTIONAL LIGHTING This category includes two different types of illumination which could be considered as opposites. On one side, it is the accent lighting which is able to emphasise or to draw attention to detail. On the other side, the ambient lighting gives the space overall mood and tone. Their task in the interior design is to induce the atmosphere and to emphasise the desirable detail. The emotional lighting provides, from the point of view of its utilisation, many options in various types of interior and more and more frequently it plays an important role also in the framework of the lighting solution of the office spaces. It provides attractiveness to a prestigious office, it supports the functionality of the conference and meeting rooms, it adds interest to the communication zones. From the technological point of view, it provides a wide space for the utilisation of the RGB LED technology enabling the light colour to mix from red to violet. With RGBW, through adding the white colour, it is possible to achieve a more intensive saturation of the colour along the whole colour spectrum. The colour solution is thus strengthened by the potential to create various lighting scenes that are able to induce a relaxation, motivating or intimate atmosphere.

LQS VALUE RGB colour mixing RGB colour mixing

LQS Value

Yes

5

No

0

LQS assesses the spaces according to the fact if the emotional lighting is or is not part of the lighting solution. It assesses the spaces with emotional lighting

EMOTIONAL LIGHTING

The emotional lighting creates the potential for utilising the lighting scenes and is able to induce relaxation, motivating and intimate atmosphere.

with the score of 5 points, the spaces without this type of lighting with 0 points.

arcline optic led rgb

149

VEGA EXCLUSIVE

139

The variable accent luminaires from the OMS ELITE category are able to attract attention to unusual details. Their conception is based on people’s character to respond to various intensities of brightness. So, if we want to emphasise the importance of an object and to achieve the human eye detecting it and saving it as well in its memory as an exceptional one, we have to reach the contrast of luminance between the given objects and the background minimally in the ratio of 3:1. Through the ambient luminaire ARCLINE OPTIC LED RGB, it is possible to make the overall mood and space atmosphere complete. It is used for illumination of vertical surfaces, especially walls. It is often placed in such a way that it is not visible, e.g. to the soffits (e.g. the so called cove lighting). In this solution the light falls directly to the wall and creates an impression that its colour is changed.

Accent luminaire STARTRACK from the brand OMS ELITE.

LQS VALUE Ambient lighting Ambient lighting

LQS Value

Yes

5

No

0

LQS VALUE Accent lighting Accent lighting

32/33

LQS Value

Yes

5

No

0

Ecology The ecology and ecological solutions respecting the fragile equilibrium of the environment are important topics which have become key values across the whole industrial spectrum during the last decades. The manufacturers of the luminaires and light sources are no exception in this area. Also in this line of business the demands on efficient utilisation of energy, the recyclability and long life of the products constantly rise. In the area of manufacturing the luminaires and the light sources, the effectiveness of the light sources, the effectiveness of the luminaires and their impact on the environment are more and more emphasised. These are categories which, besides the ecological approach, contain a substantial potential for energy savings and in this way also reducing the operating costs. For the developers and architects of the office buildings just this factor is the source of the strongest motivation when designing the light systems.

ECOLOGY

34/35

THE Latest lamp technology The times when the whole world applauded Thomas Alva Edison for the discovery of the light bulb are irrecoverably over. Although he made his mark on history forever as the inventor of artificial light, other scientists and inventors came after him and they shifted and are still shifting the development by leaps and bounds ahead.

LQS VALUE Latest lamp technology Latest lamp technology

LQS Value

> 100 lm/W

5

> 90 lm/W

4

> 80 lm/W

3

> 70 lm/W

2

> 60 lm/W

1

> 50 lm/W

0

With the knowledge about the limitedness of the energy sources which causes permanent increase of their prices, the trend taking into account the ratio of effectiveness of the luminaire or the light source and the consumed energy is coming to the foreground. As late as three years ago, the metalhalide lamps especially met these requirements but even they are retreating in favour of the light emitting diodes – LED. Compared to the conventional sources the LEDs achieve better parameters in each respect: they are more effective, they emit a negligible amount of heat, they place lower demands on the consumption of electrical energy, they do not contain mercury and so they are more ecological. In the area of manufacturing the light sources just LEDs represent a category which currently progresses most quickly. Up to 90 % of all innovations today take place in the category of the LED light sources. Of course, the development and production of

the conventional light sources has not been stopped but they progress more slowly. However, also here it is valid that the trend heads especially to manufacturing more effective and economical types of the existing light sources. The original types are replaced by the eco and

THE Latest lamp technologY

long-life fluorescent lamps or metal-halide lamps with ceramic burner of the second generation, etc.

The higher price of LED luminaires is the reason why they have not replaced lighting fixtures with conventional light sources in spite of the fact The main indicator for selecting they are obviously of higher an optimal light source which quality. But also this factor is to a designer of the light system be viewed in a wider context. in an office building has to Although the initial costs for follow is the efficacy of the purchasing of LED luminaires light source. Its value shows will always be higher, the with what effectiveness electric return on investment in the power is changed into light, i.e. form of energy savings during how much of luminous flux (lm) the whole luminaire life time is produced from input power and practically no maintenance (W) delivered to a light source. costs make the LED luminaires The unit is lumen per watt extraordinary commercially (lm/W). The LED light sources interesting. From this point of achieve the best parameters view the retrofits where we only also in this category. Currently change the conventional light the LED chips with efficiency of source for a more modern type 160 lm/W at cool white CCT, prove to be only temporary and are commercially available; from a long-term point of view however, in the lab conditions it is also a loss-making solution. the value of 254 lm/W has already been achieved.

EFFICACY OF LIGHT SOURCE LED High-pressure sodium lamp Metal halide lamp Linear fluorescent lamp Compact fluorescent lamp Mercury vapor lamp Low voltage halogen lamp Incandescent lamp

0

20

40

60

80 100

120

140

160 180

200

220

240

Lumen/Watt (without ballast losses)

36/37

DW MIRA

135

System efficACY of luminaire The luminaire efficiency factor determines how effectively the lighting fixture itself is able to direct the light from the light sources with the smallest possible losses on the surfaces of the optical system. The light output ratio (LOR) expresses the ratio of the luminous flux flowing from the luminaire and the sum of the luminous fluxes of all light sources in the system. Lumen output of luminaire LOR = –––––––––––––––– % Lumen output of lamp This value can be divided into the upward and downward ratio that expresses how many percent of the luminous flux from the luminaires heads to the upward and downward space (i.e. over and under the luminaire). This is of special importance for those spaces which place high demands on the illumination of the ceiling.

LQS VALUE

transparent ones. Aluminium, using various surface finishes, creates the predominant part of the reflective materials. The most often used transparent materials are glass and plastics. Aluminium, glass, plastics, steel have different reflectance and capability to absorb light. The materials used for luminaire However, in general it is valid production have the biggest that the more effective the influence on its efficiency. materials used in the optical The optical materials enable system are, the lower the losses changing the distribution of on these surfaces will be as well the luminous flux of sources, as the luminaire efficiency being diffusing the light or changing higher. the spectral composition. They Lumen output System of luminaire lm are divided into reflective and efficacy = ––––––––––––––– [–––] of luminaire Installed power W of luminaire

Besides the used material themselves the luminaire efficacy is also affected by the design or the shape of the optical system. A correctly designed luminaire reflects the largest amount of light to the surroundings at minimal losses. The optimal mathematical and physical geometrical shapes of the lighting fixture can be calculated by modern computer systems, e.g. LIGHTOOLS.

System efficacy of luminaire System efficacy of luminaire

LQS Value

> 80 lm/W

5

> 70 lm/W

4

> 65 lm/W

3

> 55 lm/W

2

> 40 lm/W

1

> 30 lm/W

0

The DW VISION LED achieves the efficacy of the luminaire of up to 103 lm/W thanks to its integrated Fortimo LED module system. The Fortimo LED modules represent the latest generation of the LED sources which are able to increase the efficacy of the lighting system without changing its dimensions, shape or luminous flux of the system. The Fortimo LED modules are a source of the white, effective light with CRI 80. The luminaire DW VISION LED fulfils the conditions of the standard for lighting of offices EN 12464-1. LQS assigns the highest score the luminaires with efficacy of more 80 ml/W.

The luminaire efficacy factor determines how effectively the lighting fixture is able to direct the light from the light sources with the smallest System efficACY of luminaire Thermal output of lamp

possible losses.

Thermal output of lamp The light spectrum visible for the human eyes is between the ultraviolet (UV) and infrared (IR) spectrum. In spite of the fact that the human eye is not able to catch the infrared light, it perceives it as radiant heat. Every object that is exposed to such radiation is constantly strained. However, the majority of the light sources used radiate this part of the spectrum in various extents. The lower the value of the radiated IR is, the more effective the light source is. From this point of view, on the bottom of the scale as the least efficient, there are the usual incandescent lamps which change up to 95 % of energy into heat and only remaining 5 % into visible light.

In the office buildings and offices with air-conditioning the light sources with a high IR radiation percentage are a sufficiently big load for the electric power consumption. The heat from the non-effective sources heats the air continually in the closed space cooled by the air-conditioning – this fact is connected with the need for a higher performance of the air conditioning. It is approximately valid that for 2.5 W of the luminaire energy 1 W of the air-conditioning energy is used, i.e. if the energy consumption of the lighting system increases, the energy consumption for the air-conditioning operation grows in direct proportion, too. The user of the office spaces illuminated by outdated light sources is burdened by increased costs not only for the energy needed for the operation of the light system but also for the air-conditioning.

gacrux

138

From this point of view the installation of luminaires with light sources creating the minimal percentage of the IR radiation is considered the most economical. These requirements are currently reliably fulfilled by the latest LED light sources that radiate only a negligible amount of the IR radiation.

It is approximately valide that for 2.5 W of the luminaire energy 1 W of the air-conditioning energy is used, i.e. if the energy consumption of the lighting system increases, the energy consumption for the air-conditioning operation grows in direct proportion, too.

LQS assesses with the highest number of points those light systems which on average do not exceed 15 % proportion of the IR radiation in the overall radiated spectrum. This assessment is fulfilled especially by the LED light sources.

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LQS VALUE Thermal output of lamp Thermal output of lamp

LQS Value

< 15% proportion of IR radiation

5

< 26% proportion of IR radiation

4

< 28% proportion of IR radiation

3

< 31% proportion of IR radiation

2

< 60% proportion of IR radiation

1

> 60% proportion of IR radiation

0

The life span of the light source is one of the key factors which the architect and developer should take into account when designing a light system.

LQS VALUE Dangerous material content Dangerous material content

LQS Value

mercury content 0 mg

5

mercury content < 0.5mg

4

mercury content < 1.5mg

3

mercury content < 2.4mg

2

mercury content < 5mg

1

mercury content > 5mg

0

In the first case there is a threat that the mercury vapours can leak to the air which in dependence of the number of disrupted sources, the size of the room and method of airing can cause the employees at the workplace short-term health problems (nausea, anxiety). In the second case, when disposing the toxic waste inadequately, it represents a long-term risk of soil contamination, as the heavy metals do not decompose and become a permanent part of the environment.

Hg

The vision of danger in connection with luminaires and light sources for common people is connected with the risk of cutting by a broken bulb. As a matter of fact, the risks connected with using some types of the light sources are much more serious and can have an impact on the people’s health as well as on the quality of the environment. The reason is the mercury content, a heavy metal with high toxicity, which is an inevitable part of the fluorescent lamps and metal-halide lamps. In spite of extensive scientific research, until now we have not revealed a material which would replace the task of mercury in the light sources. The solutions which would not represent any risk from the point of view of safety are extremely costly and therefore unsuitable for the mass market.

compliance with legislation which defines the method how the used and damaged light sources containing toxic substances are to be removed.

Hg

Dangerous material content

Hg

The task of mercury in some types of the light sources remains thus irreplaceable. When the luminaire is switched on, a discharge arises during which ionisation of the mercury atoms develops and they subsequently emit ultraviolet radiation. This radiation excites the phosphorus molecules spread on the internal side of the fluorescent lamp and during their return to the original state they emit photons of visible light.

The designers of the lighting system for office spaces should also take into account the ecological potential of the light sources when they select them. The new types of the fluorescent lamps marked “eco” contain a smaller proportion of mercury than the older types. However, from the point of view of safety the LED light sources are undoubtedly considered the least dangerous option.

The risk connected with the light sources containing mercury does not consist in their common usage. It arises when they are broken during handling or they are not disposed in

LQS assesses the light sources according to the mercury content and the highest score – 5 points are assigned to the light sources with zero content of mercury.

Product lifetime and maintenance costS

during the year approximately 18 years. In the case of LED the end of the lifetime is given by the decrease of the light output When designing a lighting on to 70 % (in some cases 50 system of an office build%). At the same time they are ing one of the key factors light sources which show an the architect and developer extremely low failure rate, only should take into account two LED sources pre million is the lifetime of the light pieces produced. The regular source and the costs for its costs for their replacement and maintenance. maintenance are thus removed. By adding the functionality These light sources wear lighting management system off rapidly when they are into the lighting system we can frequently switched on and off. reduce the need of the manual Therefore their placement e.g. control which is also considered in a corridor with an installed a certain type of maintenance. movement detector (most fre- The long lifetime and minimal quently due to saving of electric demandingness in the area of power) is not the best solution, maintenance in combination just because of the shortened with energy economy make life span. The user of the space the LED light sources an ideal is then burdened by the costs solution when designing the not only for the purchase of lighting system in the office the replacement light sources building. but also for activities connected with maintenance and service When taking into account all of the lighting system. Further relevant criteria, LQS assigns the indirect costs aroused by the highest score for the paramneed to make the space of the eter “product lifetime” and office building accessible during the “costs for maintenance” maintenance operations and just to those light sources with not to restrict the everyday the lifetime of or higher than operation of the individual 50,000 hours. workplaces are connected with a more frequent replacement of the light sources. Compared to the incandescent lamps the LED light sources represent at the first sight a more costly solution. Their price compared with the conventional light sources is really higher; however, their utilisation in the lighting system is profitable for several reasons. Their first and the biggest advantage is the extremely long lifetime reaching more than 50,000 hours and it represents at 11 hours operation time 250 days

Dangerous material content/ Product lifetime and maintenance costs

COMPARING TOTAL COSTS FOR ILLUMINATION (TCO) TOTAL COSTS OF OWNERSHIP

INDIRECT C-P PV L2

VEGA

VEGA

(light sensor)

type of light source

FSDH

LED CRI >80

LED CRI >80

power consumption

55

55

55

W

number of light sources in luminaire

2

1

1

pc

control gear

ECG

ECG

ECG

type of lighting control

none

none

light sensor

lifetime of light source

10 000

50 000

50 000

124

55

26

W

9 400

5 180

5 180

lm

power consumption of luminaire luminuos flux LOR luminaire light output

hour

41

70

70

%

3 854

3 626

3 626

lm

number of luminaires

28

28

28

pc

average time when luminaire switch on between 6.00 – 18.00

12

12

12

hour hour

average time when luminaire switch on between 18.00 – 6.00

2

2

2

number of days in week when luminaire switch on

5

5

5

day

0.18

0.18

0.18

€/kW/hour

purchase price of luminaire

45

180

190

€

purchase price of light source

3.5

0

0

€

price for electrical energy

purchase price of service hour time needed for the exchange of one source

30

30

30

€

0.25

0.25

0.25

hour

COOLING ENERGY cooling system usage factor

50%

50%

50%

cooling efficiency

2.5

2.5

2.5

Wh/Wc

purchace for initial instalation

1 456.00

5 040.00

5 320.00

€

Number of maintenance required per 12 years Maintenance fee

4

0

0

406.00

0.00

0.00

€

power consumption of luminaire

124.00

55.00

26.00

power consumption of cooling system

24.00

11.00

5.20

W

completly power consumption of room

4 144.00

1 848.00

873.60

W

consumption of el. energy for

day

W

58.02

25.87

9.12

kWh

month

1 260.47

562.10

198.15

kWh

year

15 125.60

6 745.20

2 377.81

kWh

production of emission CO2 per year

9 680.38

4 316.93

1 521.80

kg

price for el. energy per

day

10.44

4.66

1.64

€

month

226.88

101.18

35.67

€

year

2 722.61

1 214.14

428.01

€

difference between input costs

3 584.00

3 864.00

saving difference per year

-1 508.47

-2 294.60

€

saving CO2 per year

-5 363.46

-8 158.58

kg

payback excluding maintenance

2.4

1.7 Years

payback including maintenance

2.4

1.8 Years

POWER consumption of lighting installation Production of CO2 kW 180 000 160 000 140 000 120 000 100 000 80 000 40 000 20 000 0 0 1 2 3 4 5 6 7 8 9 10 11 12 years Indirect C-P PV L2

VEGA VEGA (light sensor)

LQS VALUE

operating costs and payback time

kg CO2 140 000 120 000 100 000 80 000 60 000 40 000 20 000 0 0 1 2 3 4 5 6 7 8 9 10 11 12 years Indirect C-P PV L2

€

VEGA VEGA (light sensor)

€ 40 000 35 000 30 000 25 000 20 000 15 000 10 000 5 000 0 0 1 2 3 4 5 6 7 8 9 10 11 12 years Indirect C-P PV L2 VEGA IVEGA (light sensor)

40/41

Product life-time & maintenance costs TProduct life-time & maintenance costs

LQS Value

>_ 50000

5

> 24000

4

> 19000

3

> 12000

2

> 10000

1

>_ 2000

0

EFFICIENCY Nowadays modern technologies provide comfort for the light system control in the office buildings. The automatic control saves time, it enables selecting the adjusted lighting scenes by a simple control through buttons and at the same time it creates potential for energy savings up to 80 %.

To change the lighting intensity and the light colour in the room and to create varied atmospheres or emotions can be achieved today by a simple control of the button or a touch on the smartphone display. Today the technological progress enables the owners and users of the office buildings to take benefits from the quality illumination of the space and at the same time to save time, energy and costs for maintenance. Thanks to the intelligent forms of the lighting management system the operation of an office building can be more effective today than any time before.

EFFICIENCY

42/43

Daylight sensor

The control of the luminaires is carried out on the basis of the The daylight has decisive lighting intensity fully automatiimportance on the health and cally and besides the energy psychological well-being of savings also the user comfort people. Its shortage affects is improved. Its efficiency is not only the quality of vision higher the more daylight falls to but also the performance the given space. When installing efficiency and the ability to the daylight sensors it is necesconcentrate and can even disrupt the circadian rhythm. Therefore it is important to create such environment at the workplace which will be able to imitate the properties of the daylight as truthfully as possible. Although the majority of the workplaces have minimally one wall with windows, the availability of the daylight is never that optimal to be able to do without a high quality lighting system. The light conditions change during the day in dependence of the time of the day, weather and the season of the year. The task of the artificial lighting is to balance the differences and to complete or to replace in full extent the natural light when its availability is limited. The requirements for an adequate lighting intensity of the workplace can be achieved by installing the daylight sensor.

Daylight sensor Daylight sensor

LQS Value

Yes

2

No

0

14:00

The light conditions change during the day in dependence of the time of the day, weather and the season of the year. The task of the artificial lighting is to balance the differences and to complete or to replace in full extent the natural light when its availability is limited.

the highest demands on the constant lighting. LQS considers the daylight sensor the most effective technology from the point of view of energy saving and assesses the spaces with the daylight sensors with 2 points.

16:00

20 %

40%

100%

Energy consumption

LQS VALUE

The core of the system is the luminance sensor which reads the light conditions on the scanning level. The advantage is that the daylight and the artificial light complete each other, i.e. when the day lighting decreases, the artificial one increases and vice versa. This property ensures that in the given space there is always as much light as we really need. Such a regulation method can be carried out continuously or in leaps and the luminaires dim down to the value of 0 %. In the case of larger spaces several sensors are used. They assess the mutual resulting values by averaging.

sary to pay attention to the fact the zones scanned must not overlap. Similarly it is unsuitable to place them in the reflection zone and the radiation sources which negatively affect the scanning process. An ideal case is to position the scanner over the task area which places

energy consumption according to lighting intensity

0% 7:00

8:00

9:00

10:00

The intensity of daylight

11:00

12:00

13:00 14:00

15:00

16:00

17:00 18:00

19:00

20:00 21:00 22:00

The energy consumption of the lighting system in dependence of the daylight availability achieves the maximum values early in the morning and during evening hours.

Daylight sensor / Constant illuminance sensor

The requirements on adequate

Constant illuminance sensor

workplace lighting intensity can be

The task of this sensor in the office spaces is to ensure constant illuminance independently of the state of the luminaires in the lighting system. The essence of this type of control results from the fact that the light qualities of the luminaires deteriorate during their installed lifetime, the optical parts are polluted or some lighting fixtures in the lighting system fail.

achieved by installing the daylight sensor.

The constant illuminance sensor behaves in the space as the sensor of the light intensity and so it artificially adapts (decreases or increases) the luminaire luminous flux. For the sensor to be able to fulfil its function it is necessary to count on its installation already during the design phase of the lighting system which has to be over-dimensioned from the very beginning of the design. The economy of this solution can look contradictory at first sight. However, the reality is that it really occurs because during the first years of operation of the over-dimensioned lighting system the individual light sources do not run at full power. The system is adjusted to 100 % performance only when it starts to show signs of wear. In this way the constant lighting intensity of the whole scanned space is guaranteed.

modul ray

119

From the point of view of the economy improvement, it is suitable to combine the constant illuminance sensor with the daylight sensor. In this combination both types of sensors are able to fully utilise the potential of the natural light falling to the space through the windows and to adapt the intensity of the artificial light to this situation. Combining several types of the lighting management system enables to make use of the natural light potential in full extent in the office spaces and to adapt the performance efficiency of the lighting system to it – this will prolong the lifetime and maximises the energy savings. luminous flux 100%

80%

Area Sp (saving) end of light source lifetime

0% L

18:00

20:00

70%

Every lighting system is over-dimensioned, minimally by 20 %. At the end of the lifetime it still achieves the required illuminance intensity. Using the constant illuminance sensor we can achieve 20 % energy savings during the first years of the lifetime.

100%

Sensor

Light measurement

1.st luminaire

2.st luminaire

3.st luminaire

daylight and artificial light

Sensor

Light measurement

4.st luminaire

When installing the sensors it is important to pay attention for the zones scanned not to overlap and to be placed in sufficient distance from radiation sources which negatively affect their detection ability.

daylight

LQS VALUE Constant illuminance sensor

44/45

Constant illuminance sensor

LQS Value

Yes

1

No

0

Presence detector In the framework of the office building there are spaces that do not require constant lighting. They are rooms, communication zones or underground parking lots without permanent occurrence of people and from the point of view of energy saving they represent a big potential. The presence detector represents a suitable type of control of these spaces. Its usage allows the luminaires to be switched on only when somebody appears in the space, i.e. only when the lighting is really needed. It is automatic control equipped with a sensor responding to the heat of the moving persons in the detection area. Scanning the space is ensured by passive infrared technology with built-in infrared scanners in the sensor which respond to the heat radiation emitted by the human body and transform them to an electrical signal. This sensor subsequently assesses the situation and switches on the illumination. The scanner itself does not emit any radiation and therefore we can The presence detector switches on the luminaires in selected spaces when speak about passive infrared somebody is present and thus the lighting is really needed. sensors (PIR).

100% movement

0%

LQS VALUE Presence detector Presence detector

LQS Value

Yes

1

No

0

The presence detector can be used both in the indoor and outdoor applications with different sensitivity and mounting height. For an ideal coverage of the space, it is suitable for the sensors to be placed in positions where their scanning areas partially overlap. It is important to avoid installing the sensors close to street lamps, air-conditioning or heating units

Presence detector

time

100% movement

10%

time

100%

Sophisticated systems enable to adjust the presence detector in such a way that it will switch on the luminaires in that part of the room where the presence of the employee requires it.

10%

movement

delay time

time

and other sources of intensive infrared radiation which could affect their functionality. When installed properly the sensor responds immediately after somebody enters the zone scanned. When using control based on movement we can utilise the function of delay of dim down which means that the luminous flux of the luminaire does not change immediately after the movement detection dies down, but after passing the adjusted time without movement. This time is determined according to the type of the space and the frequency of the movement. The dim down can be transferred either to a certain level (e.g. 10 %) of the luminaire luminous flux or the process of dim down up to the value of 0 %. The level of the luminous flux amounting 10 % is used especially for safety reasons for no full darkness though without any movement to be in the space or due to the security cameras or prolonging the lifetime of the light sources, etc.

If there is nobody at the moment in the office or another office space, the presence detector switches off the lighting.

When an employee enters the room, the presence detector responds to the infrared radiation which the human body emits and switches on the lighting.

The movement sensor can be an independent action element (which controls the light system) or serves only as an input element that delivers information for assessment to the higher control unit or system.

From the point of view of LQS the presence detector represents an extraordinarily effective method how to increase the efficiency of the lighting system and to optimise the energy consumption therefore the spaces with this element in the lighting management system are assigned by the point evaluation 1.

The presence detector can be adjusted in such a way that the lighting will not switch off in a vacant room immediately after the last person leaves it, but gradually.

100% movement

delay time

transition time

10%

0%

time

100%

10% 0%

46/47

The adjustable lighting scenes represent an ideal tool of the lighting management system, e.g. in the conference rooms, representative areas or relaxation zones.

Calling of lighting scenes Managing the lighting system based on the change of firmly adjusted lighting scenes finds wide implementation in administrative spaces. Under a lighting scene we can understand a summary of several adjusted factors which can be altered by a simple control through a button. Here belong: the lighting intensity (e.g. 100 %, 75 %, 50 %, 25 %, 0 %), light of colour (correlated colour of temperature), RGB scenes, calendar or simulation of daylight. Through causing a change of the lighting scene we can adapt the illumination to the actual needs of the workplace. In the lighting systems with the LED luminaires we can adjust the lighting scenes using RGB mixing of colours. In the office building we can use this solution in the conference rooms, corridors, relax zones or representative areas. It can be controlled by a built-in board or through remote controls. In the especially structured spaces it is recommended to use the controls working on the wireless basis. The electromagnetic waves they emit are able to go through materials which form an obstacle between the sender and receiver. It enables building-in the receiver also in areas which are remote from the given room and controlling the lighting system also across walls on several floors.

The modern technologies currently enable to control the lighting through the iPad or smartphone. By creating a specific application we can touchcontrol the lighting system in the whole office space. Through wireless communication the selected controller emits a signal to the controller, it assesses it and through the control unit it sends directly to the luminaire or a group of luminaires the user remotely switch off, switch on, increase or reduce luminous flux or light colour. From the point of savings the manual control does not represent such an effective solution as the automatic one. LIGHTING SCENE 1: During the day, during hours with sufficient availability of daylight the lighting scene can be adjusted to switch off the artificial lighting.

control panel

control components

LIGHTING SCENE 2: During presentation at meetings where a whiteboard is used, the corresponding lighting scene switches on the additional lighting of the whiteboard. The cold colour stimulates higher performance efficiency.

lighting

LQS VALUE Calling of lighting scenes Calling of lighting scenes

LQS Value

Yes

1

No

0

iPad, iPhone, Android

Wireless Access Point

Calling of lighting scenes

Controller

Control unit

Lighting

The lighting system control through changing the adjusted lighting scenes finds a wide implementation in the office spaces. OMS Central Power Source The Central Power Source (CPS) developed by the company OMS belongs to the latest types of control. It is an innovative system with a centralised source of feeding for the LED luminaires. The CPS system is equipped with an intelligent communication interface between the central system (MASTER) and connected luminaires (SLAVE) which communicate with each other directly in the safe power supply 48 V DC system. Centralising the power supply source brings advantages in the form of a lower price for the LED luminaires which can be used without an electronic control gear, their smaller dimensions and also lower number of conductors is necessary. Thanks to the web interface implemented directly in the OMS CPS it is possible to control, follow and adjust the luminaires to various scenes practically from any “web place�. The DALI interface for ensuring the compatibility with older systems is also available. A big advantage of this control system is that during its installation the conductors and wires of the existing installation can be used. Standard DALI installation. LIGHTING SCENE 3: A lighting scene with luminaires being switched on, they emit warm light; almost home atmosphere is induced in the space.

LIGHTING SCENE 4: A lighting scene when we are watching a projecting screen. The general lighting is switched off. By switching the accent lighting on we can direct the attention to exceptional objects in the room.

DALI Control Unit DALI Link

2 DALI Power Supply

Power link

3

230V AC

Installation using OMS CPS system. LAN

DALI

1-10V

CPS

2

48V DC

230V AC

48/49

ESPRIT People love flawlessness. Therefore the lighting producers do not take only their light and technical properties into consideration but also their overall design. Where an attractive look is combined with modern technology also inanimate objects acquire a new dimension. Let us call it esprit.

To breathe spirit into the inanimate objects is the basic ambition of the current industrial design. In the area of luminaire manufacturing it means the effort of the luminaire designers for an innovative connection of shapes and functionality. Today the modern materials and technologies enable countless numbers of variations which can be modified according to the client’s vision. The new, design dimension of the luminaire production has also been revealed by the designers and users of the office spaces. They do not only emphasise the functionality when selecting the lighting fixtures but also the ability to add interest to individual parts of the interior, to contribute to their specific atmosphere or to represent. Although there are no quantifiable criteria for assessing the quality, it is important to respect a few rules in the creative process. They are as follows: overall impression of the luminaire, luminaire appearance in the room, detailed solution, surface finish, material of construct parts, functional elements. The company OMS has responded to the design demands for the space illumination by creating an in-house department of research and development in the framework of which the “court” designers in collaboration with technical departments and the students of the Academy of Fine Arts and Design in Bratislava, specialisation industrial design, are working on the development of new design luminaires using the latest technologies. The result of this collaboration is series of the design and highly functional luminaires falling into the category of futuristic visions.

ESPRIT

RACECOURSE by Anton Zetocha Luminaire is using „edge lighting“ principle. LED light source is placed in the middle of the body, which is working as a cooler, enlighting the plexiglass plate through edge. Special material ensures high homogenity of enlighted surface, which distributes light into the room. With this technology the luminaire can be very thin. When switched off, luminaire is transparent and blends with the room. This is one of possible ways of future lighting, based on minimalistic design using a LED light source.

CIRCLE by Matúš Opálka Microclimatic conditions including noise, colour workplace requirements and area illuminance are the main factors creating a quality work environment. The product offers direct or indirect light source, both with built-in air purifiers - Ionizers. The ribbed surface promotes better air circulation and comfort while reducing noise.

MEANDER by Lenka Abonyiová The designer concentrates simultaneously on biologically effective lighting and the need for social sharings. He says: „I share the blue light content from my product (luminaire) together with my colleague to help him improve efficiency forming the social bonds.“ A wave epitomises an effort of distinguished natural design of the luminaire making direct impact on consumers together with the light path.

50/51

EXCEPTIONALITY “No man is an island unto himself�, the master of literature Ernest Hemingway wrote. In business this simple truth is valid twice as much. The key to success of any manufacturing enterprise today is not only high quality products and modern technologies. It is first of all satisfied customers. The company OMS approaches every customer individually and offers him/her exceptional lighting solutions as well. Today offering the market a quality product is by far not enough. During recent years the customers have become more and more demanding and, more than a quality product, they are looking for complex solutions. This is also valid for the customers in the segment of lighting. Today their requirements are not satisfied only by a simple purchase of a luminaire. They are looking for opportunities how to save, to achieve an adequate return on investments and to make profit resulting from the usage of the latest technologies.

out a project, through its realisation, installation of lighting up to the service and customer adjustments. The key word in the time period when we face permanent rise of energy prices is the economy of solutions. Therefore every new project starts with the energy audit of lighting which provides the basic material and values for the energy certification of the building. Its goal is to acquire a sufficient amount of information concerning the state and efficiency of the existing lighting system, to identify the potential for energy saving and to suggest concrete measures how to achieve them and to reduce the energy Our company has long-year know-how and an above-standard demandingness of the spaces audited. Based on the audit of the technical background at our disposal. Thanks to this fact it is able lighting system the experts of our company prepare recommento respond flexibly to all customer needs and to offer them full dations for our client where they quantify the extent of possible support in all phases when solving the illumination: from working savings and prepare a concrete proposal how to achieve them.

EXCEPTIONALITY

Our company has long-year know-how and an above-standard technical background at our disposal. It is able to respond flexibly to all customer needs and to offer them full support when solving the illumination.

PROJECT

(pre-installation services)

INSTALLATION

SERVICE

(after-installation services)

PROJECT

Energy audit of lighting

Lighting measurements

Complete Lighting project

Measuring the energy consumption

Lighting design

INSTALLATION

Luminaires / management

Installation

Adjustment

Selecting the luminaires and accessories

Lighting calculation

Electroproject

Design of emergency lighting

Complete lighting management system

SERVICE

Energy certification of buildings and lighting

Operational service

Electroproject issue of fact

Emergency lighting

Programming the system

52/53

We provide complex service when designing both interior and exterior lighting. Where others see obstacles we see solutions. Our department Lighting Solutions has necessary knowledge and technical means for lighting measurements at our disposal. It will carry out the technical inspection of the installation, measurement of lighting intensity and illuminance in the client’s premises and will evaluate up to what level the quality complies with the legal requirements and standards. Through measuring the energy consumption of the existing lighting system it will identify the place of insufficient efficiency and losses and will work out a complete lighting project for the customer that is tailor-made to the their needs and requirements on energy saving. Together with the clients we work out a design of the overall solution of the space illumination and provide them support when they select the luminaires. Our company has a wide portfolio of luminaires at our disposal that we are able to customise if necessary according to client’s specific requirements. By high-level software we will calculate the optimal parameters of a new lighting system and work out an electro-project whose part

EXCEPTIONALITY

is also the lighting system’s electric connection scheme and programming the lighting management systems. Our long-year experience, strong technical background and emphasis on the research and development of new technologies enable us to provide the clients with full support when they are selecting the most effective lighting management system. Besides the standard tools including the daylight, presence and constant illumination sensors we offer our own lighting management system through the intelligent system Central Power Source developed by the engineers of our company. As a modern enterprise we have also been able to respond to the trend of managing the lighting systems through iPad, Android and smartphones. Our programmers and designers programme applications tailor-made for every client. In the after-project phase we provide services of Energy Certification of Buildings which documents the energy demandingness of the building with the new lighting solution.

We have been providing complex services for designing the interior and exterior illumination for almost 20 years. Where others see obstacles, we see a lighting solution. Our philosophy is not based only on simple following the trends. We have decided to be trendsetters in our sector. A great number of customers in more than 120 countries worldwide prove that we are success.

54/55

Light in office EMERGENCY AND SAFETY LIGHTING

meeting room

COMMUNICATIONS AND CORRIDORS

open space office

GARAGE

head office

conference room FACADE OUTDOOR PARKING RECEPTION AND FOYER cellular office

RELAXATION ZONE

lighting quality standard

12/13

In all entrance halls with high ceilings it is suitable to use the suspension luminaires. The design lighting fixture REBEL developed by the company OMS represents an ideal solution for this type of the space. rebeLl

114

RECEPTION OFFICE AND FOYER The entrance space is an advert for all office premises. It is the place of first contact based on which we create an impression about the character of space. The basic level of illumination determined for these types of spaces by the technical standards is not by far the only criterion that is to be taken into account when planning the illumination today. The emphasis is placed not only on the functionality but also the representative character and creativity of the lighting solution. The correctly chosen vertical and horizontal lighting of the entrance spaces increases the visibility and makes orientation in the space easier. The space of the reception office is to be illuminated by a suspended luminaire which is attractive from the point of view of design. The ambient light of the reception desk by the LED modules in combination with a transparent material contributes to increasing the space attractiveness and creates a positive communication atmosphere. The type of the reception office with a permanent duty places specific demands on the illumination. From the point of view of selecting a correct type of the luminaire which copies the needs of the office and the workplace, it is suitable to complete the lighting in the task area by a desk or freestanding luminaire. The ambient and wall luminaires or luminaires with a

narrow beam angle of radiation are able to create interesting light effects in the entrance space and to contribute to its plasticity. The recessed floor LED luminaires help people to orient themselves in the space, they

RECEPTION OFFICE AND FOYER

copy the communication paths; make the entrances and doors to other communication zones visible. By building-in the intelligent lighting management system we can correct the intensity and diversity of the lighting scenes

in the reception area, to adapt various time intervals to their needs and to achieve in this way, not only an effective illumination in this part of the office space, but also the optimal energy consumption.

The entrance space is an advert for all office premises. The emphasis is placed not only on the functionality but also the representative character of the lighting solution.

For the main lighting of the reception area we can use recessed luminaires with a direct characteristic of luminous flux distribution and luminaires with narrow beam angle (spotlights). The accent lighting or luminaires with an asymmetric radiation curve can be used for the illuminance of the logo. When designing the lighting system for the entrance spaces and reception office we not only emphasise the requirements of the standard but also the representative character and creativity of the light solution.

60/61

DW QUADRO

136

relax asymmetric led

143

dw castor

133

LINE RANGE LED

126

lighting quality standard

12/13

terzo

140

OPEN SPACE OFFICE The open space offices with an open disposition, an area achieving often hundreds of square metres, determined for minimally 6 persons are a favourite solution especially in modern technological companies emphasising the effective utilisation of the space. The open space office, an office without any internal dividing walls and doors creates conditions for immediate conversation and feedback between the employees. It enables them to cooperate more effectively and at the same time it satisfies the natural necessity of people to create social ties. In spite of the missing construction boundaries, the open space office is often a distinctively segmented space. However, the hierarchy of the individual zones is not determined by walls but ergonomically correctly deployed furniture which delineates the space for the management, leading employees, individual working groups and at the same it defines the communication zones. The differentiation of the working and communication zone can be achieved by adapting the luminance distribution level to the room organisation or the furniture. The desks, e.g. require different level of lighting than the general office space, the requirements of the lighting uniformity are also different. These values are defined by the European standard EN 12464-1. Also the lighting system has to be adapted to the structure of the space in the open space office. In general it is valid that the illumination in an open space office should be uniformly distributed without any places with a distinct light exposure or shadow. As a rule, the open space office is a place of meeting various information technologies requiring a high rate of concentration from the employees. Selecting a correct

Open space office

luminaire and light source will help to reduce the tension of the eyes when we shift the attention from the screen to the working area and surroundings. In this way it helps to improve the performance efficiency and prevents possible health problems of the employees. The suspension luminaires with direct and indirect light distribution that copies its natural properties most truthfully are most suitable for the general lighting. The indirect diffuse light they emit helps to model objects and to orient oneself in the space better. At the same time, it reduces the indirect glare when the light reflects from the PC screen or other shiny surfaces in the room.

Various possibilities of the office illumination.

To achieve the constant visual conditions we use the floor luminaires which directly illuminate the task area. A correctly selected correlated colour of temperature can create optimal conditions for stimulating and concentrated work. The light with neutral white colour and correlated colour temperature of 4,000 K is recommended, however, the maximal visual well-being of the employees is best achieved by the simulation system of the daylight. Besides the correct lighting of the task area it is also inevitable to pay attention to the vertical illumination which fulfils its task when we orient ourselves in the space. The luminaires with asymmetric radiation curve, e.g. the wall-washers. This type of illumination enlarges the space, people feel better, more relaxed and safer inside of it.

The lighting system has to be adapted to the structure of the space in the open space office. Increased demands are placed on the lighting uniformity that should prevent a strong exposure and rise of sharp shadows.

As a rule, the open space office has a wall with windows directed southwards which are exposed to the permanent influence of the daylight. Therefore for the most effective lighting the daylight sensor is recommended. Their optimal combination can achieve savings up to 68 % in the open space office. However, the great number of glass surfaces at the same time represents a risk of an excessive glare of the workplace and therefore we have to consider an adequate system of shutters. Their control can be ensured by the system KNX building management subsystem. It is an integrated management system of all electric installations in the office building enabling the user the remote control of the lighting system, shutters, security cameras and alarm, heating, etc.

64/65

modul spiker

modul box max

117

116

OPEN OFFICE

The space is illuminated by a standard luminaire technology in the form of squares with a parabolic louvre and overall dimension of 600x600 mm, 4x14 W, recessed in the coffered ceiling. This type of lighting delivers sufficient values of illuminance as well as uniformity. The disadvantage of this type of luminaires is that their design and technological parameters do not allow direct illumination of the upper thirds of the walls and the wall surface due to which the so called cave effect arises and it can affect

the employees in a depressive way. This type of lighting system achieves a below-average evaluation in the chapter Ecology. The obsolete technology of the fluorescent lamps shows low efficacy values and vice versa a high proportion of the IR radiation to the space. This lighting system is without management, i.e. it falls into the energy class E which represents the value of LENI factor 31.47 kWh/year/m2.

OPEN OFFICE / LQS composer

The resulting LQS value is belowaverage, it achieves the value slightly exceeding 2 and this fact ranks this type of space to the category with an insufficient quality of illumination.

The luminaires used are a full LED equivalent to the classical square recessed ones with the dimensions of 600x600 mm. Thanks to the specially designed optical part this type of luminaires has a wide luminous intensity curve and in this way it ensures a sufficient vertical illumination at its disposal. From the emotional point of view the lighting system ensures a biologically effective illumination. With the functionality of the daylight simulation the system is able to control the resulting lighting intensity also with

the correlated colour temperature CCT according to the needs during the whole day. The system is enriched by the possibility of the ambient blue light of the heatsink in the bottom part of the luminaire. Thanks to the full LED solution utilising the latest technologies, the system achieves the maximal values of the individual parameters.

the energy consumption amounting up to 59 %. The LENI values rank this space to the B category which is a very good assessment. The resulting LQS value is very low and characteristic for the spaces with an above-average quality of illumination.

The complex lighting management system comprises all three functions: daylight, presence and constant illumination sensor and thanks to this fact it achieves a saving potential of

66/67

modul box freestanding

164

CELLULAR OFFICE This is an ideal solution for small working teams of maximally six people, carrying out activities demanding on concentration, with an office agenda that requires storage space or for employees who come into contact with confidential information. In dependence on the office type when we select the illumination the emphasis is laid both on the functionality and the representative character. A well-designed cellular office provides the employees several advantages at the same time thanks to its limited size. It gives the impression of greater intimacy, it enables a direct approach to the windows, the availability of the daylight and so, on the whole, it creates a create an impression of an open “more individual” space for the space. “light well-being management”. In a cellular office accessible The selection of the correct type for the public, the usage of of the lighting system of this luminaires with an interestoffice space type depends on ing design which in a suitable the orientation and structure. In combination with the floor general, the recessed lumiluminaires are able to complete naires are considered the most the atmosphere of the whole economical lighting solution. space architectonically and from The suspension luminaires with the point of view of the design the direct or indirect luminous appear to be especially effecflux distribution are considered tive. Similarly as in other types a more comfort and attracof the office spaces we must tive solution which are able to not forget about the illuminaoptically induce an impression tion of the vertical areas in the of a larger space even in small zones demanding on reading or offices and in this way to help precision work. to create an almost homely atmosphere of the workplace. The installation of the daylight The accent lighting will make sensor can achieve up to 60 % the details referring to the savings of the electric energy corporate culture visible; the consumption in this type of ambient lighting will enlarge office. the room optically and will Various options for cellular office illumination.

CELLULAR OFFICE

A correctly selected correlated colour temperature can help to create optimal conditions for stimulating and concentrated work. The light with a neutral colour and correlated colour temperature of 4,000K is recommended for the offices; however, the maximal visual well-being of the employees can be fully achieved by the system of the daylight simulation.

modul ray

118

modul box SQUARE 116

dowNLIGHT mira

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135

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modul eye

117

head OFFICE Almost no other space in the office building offers the designers and architects such a creative potential as the “head office�. Its task is to create conditions for work of the leaders, to set up a background for their meetings with colleagues and at the same time to represent the company or corporate culture.

The suspended luminaire MODUL EYE with the direct symmetric and asymmetric characteristic of the luminous flux distribution developed by the company OMS represents a designer luminaire with a revolutionary system that enables altering the width of the luminous intensity mechanically. The lighting fixture is equipped with linear fluorescent lamps and the intelligent DALI management.

The natural architectonic structure of this office type automatically includes the inevitability to expect not only functional but also designer above-standard furnishing of the interior and illumination solution as well. The illumination of the desk places demands - besides the functionality - also on an inventive and representative design and it has to fulfil all parameters necessary for a concentrated activity. This space allows showing the suspension luminaire to good advantage which attracts by an exceptional design and modern technological parameters. The optimal distribution of the luminous flux without striking transition lines in the immediate proximity of the desk will prevent the wear of sight and feelings of fatigue.

head OFFICE

The variable and mechanically adjustable width of the luminous flux of the luminaire MODUL EYE enables achieving optimal light conditions for every type of activity.

The head office is a multifunctional space. It provides a background for concentrated work as well as for informal meetings and therefore it requires a variable solution of illumination. The representative part with references to the company and corporate culture and factors characterising the personality of the office user requires the usage of luminaires which give individual objects the opportunity to become apparent. Modul Clearance designed by OMS Lighting, sets new standards in architectural lighting. LED edge lighting technology provides 4300 lm and is fully transparent in switch off status. After turning on, special particles in the difusion The conference part in the pres- material create a homogenous tige office requires a different light emitting surface with the type of the light solution. The efect of “shining glassâ€?. The balanced light in warmer colour light distribution is direct and shades helps to concentrate on indirect and the correlated the communication partners colour temperature is adjustable and at the same time it gives between 3000K and 6500K. the human skin a more pleasant Together with very low glare and natural appearance. and harmonious distribution of brightness the luminaire has all The overall visual impression the positives of complex LED from the prestige office is concepts from long lifetime to completed by the programlighting control. mable lighting management system with the adjusted lighting scenes creating an optimal light environment for every activity during the working day.

modul clearance 117

modul razzor

117

MODUL RAZZOR With direct and indirect characteristic of luminous flux distribution represents the first luminaire with an electronically adjustable width of the luminous intensity curve without any need to change the optical part of the luminaire. The LED sources with various luminous intensity which reflect the light from the built-in reflectors under different angles enable changing the width of the luminous intensity curve with the luminaire MODUL RAZZOR

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The recessed ceiling luminaire GACRUX with a direct characteristic of the luminous flux distribution is equipped with a diffuser and emits a soft and non-glare light. The high colour rendering index CRI 80 and the UGR value under 19 makes it an ideal luminaire for the office spaces.

gacrux

138

MEETING AND CONFERENCE ROOM The meeting, training and conference rooms represent multimedia communication centres in every modern office building. Nowhere else is the need of a flexible, effective and at the same time pleasant lighting as important as right in these spaces. The meeting, workshop and conference rooms are not only a place where the information is shared in great extent, the tasks are assigned and innovative projects are realised. They are also a mirror of the corporate culture and an exhibition of the most modern multimedia technologies. Their composing into the specific spaces and interactive usage almost every day defines the need of special solutions of the multifunctional illumination that enables interpreting various moods and creates adequate sceneries to them. This target can only be achieved by combining various types of luminaires and their appropriate layout. The homogenous non-glare light of neutral white colour with the correlated colour temperature of 4,000 K. It supports the impression of the space’s openness and makes conditions for concentrated work. During video-conferences it is a guarantee of safety and at the same time it enables the meeting participants to take notes. For the illuminance of the conference desk and the task area the determined values are maximally 500 lx, the lighting of the surrounding of the task area is to achieve the value of maximally 300 lx. For

this purpose it is suitable to use suspended luminaires with a direct and indirect distribution of the luminous flux. A correct illumination of the board, presentation board or screen can be achieved by placing the lighting fixture at asymmetrical characteristics. The high-quality vertical lighting which makes orientation easier is very important for this type of the space. Increased demands are placed on the illuminance of the wall surfaces.

MEETING AND CONFERENCE ROOM

The biologically effective illumination will make it easier to be maximally concentrated during the meetings and increase the employees´ performance efficiency during the workshops. The desired atmosphere in the room can be achieved by integrating the function daylight simulation. The conference, meeting and workshop rooms frequently fulfil a representative mission in the office building and are the place of meeting with the clients. By placing the accent lighting we can accomplish accentuating the objects referring to the company logo, values of company or the corporate culture. From the point of its utilisation it is a space which people do not permanently occupy therefore installing the presence detector can lead to savings of electricity. In the spaces with availability of the daylight from the point of view of savings it is suitable to consider the usage of the daylight sensor.

dowNLIGHT VISION 135

track vario diffuse

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144

CONFERENCE ROOM

track vario diffuse

144

The required illuminance of the whole space including the ceiling, walls and horizontal working plane is achieved by using the luminaire with the direct and indirect luminous flux distribution. The lighting system fulfils the LG7 recommendations. Thanks to this solution we reach the illuminance up to 322 lx on the walls, and up to 305 lx on the ceiling. In relation to the working plane illuminance it represents Evavg (wall)/Ehavg (workplace) = 0.755 and Ehavg (ceiling)/Ehavg (workplace) = 0.672.

The maximal value of the parameter “Biological Factor of illumination� creates ideal working conditions for the employees. The possibility to control the lighting according to the actual requirements stimulates their performance efficiency. The luminaire VARIO is fitted with two fluorescent lamps with different correlated colour temperature (3,000 K and 6,500 K) which enables utilising the daylight simulation function. The luminaire is also fitted with a dimmable control gear which enables a simple control of the luminous flux and the correlated colour temperature.

CONFERENCE ROOM / LQS composer

The system is controlled by a touch panel thanks to which switching of the adjusted scenes is very simple. One touch of the assigned button can immediately release a lighting scene for the presentation (the illuminance can be regulated from 100 to 10 %), the video conference (with the adjusted scene of the lighting intensity 20 %), meeting (100 % illuminance plus the accent lighting), lecture (100 % illuminance plus using the asymmetric illumination of the board).

The resulting LQS value symbolising the lighting quality 2.98 represents a standard quality. The usage of the fluorescent lamp takes away important points in the chapter Ecology.

Using the unique lighting technology, the so called invisible lighting, where the luminaires become part of the ceiling complete the appearance of the whole area and at the same time do not disrupt the design of the room. The light penetrates through small holes in the luminaire across special optical parts which direct the light to the required direction. The lighting system has an outstanding layout from the point of view of Ergonomics. It achieves sufficient values of illuminance and mainly perfects restrictions of the glare with

UGR less than 16. It simultaneously obtains optimal marks in the Ecology parameters where thanks to LED technology used, it reaches the highest possible score. A huge advantage compared to the conventional sources is especially the three-time longer lifetime of the LED source. Making use of the lighting management systems: constant illuminance sensor and daylight sensor we can achieve up to 62 % savings of the energy compared to a solution without management. Thanks to this fact the value of the factor LENI dropped from 20.67 kWh/m2/year to the value

of 7.9 kWh/m2/year. It means that a space with such a lighting solution belongs to the category with the most energetical class of efficiency A. .

The resulting LQS value symbolising the lighting quality 3.38 represents an above-standard quality. When using the systems for supporting the well-being, e.g. daylight simulation, the resulting LQS value could even achieve the value of more than 4.

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lighting quality standard

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dowNLIGHT NOVIEL 134

RELAXATION ZONES Nowadays the working people spend more than half of their lives at work. The modern office spaces are not cold, impersonal spaces any more but they respond to the natural needs of the employees and create zones determined for the informal communication and relax during the working day.

caph

138

A café, restaurant or relaxation room with comfortable places for sitting is a common part of a modern workplace today. They provide a space for exchanging information in an informal environment and copy the natural biological needs of the human organism. The equipment and functional lighting of the relaxation zones contributes to the feeling of comfort, creates a space for having rest and increases the employees´ motivation. In the zones determined for relaxation, equipped with comfortable furniture especially the indirect lighting will find its place. It will enable flexible changes in the room without any need to change the lighting solution. The cafés and restaurants in the office building place similar demands on the light solutions as any other premises of a similar type. The basic premise when planning the illumination in these spaces is to use a correct light solution in every zone. It will create an impression of a homogeneous space. The display cases and spaces determined for presentation of the meals cannot do without the spotlights with an adequate CRI value which will show the co-

RELAXATION ZONES

lour of the meal as truthfully as possible and are able to increase its visual attractiveness in this way. In the part determined for dining, the indirect light from the recessed luminaires is able to create a nice, but in spite of that a stimulating atmosphere and here we can organise an informal working meeting with

catering. Currently there is a common trend heading to the creation of a home atmosphere for all spaces defined as the relaxation zones. The furniture in warm colours (e.g. made of wood) becomes the dominant feature of the space as well as the pleasant illumination with the correlated colour tempera-

ture of 2,700 K. For a lighting designer such a space provides inexhaustible creative opportunities. The task of the relaxation zones is to affect the people’s emotions and therefore especially the ambient lighting will find its place in such spaces.

Modern employers respond to the natural needs of the employees and create zones for informal communication and relaxation during the whole day.

In the relaxation zones with a standard height of the ceiling it is possible to use the luminaires of the downlight type. The attractiveness of the space with high ceilings can be increased by installing designer suspended luminaires.

tubus phact

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114

lighting quality standard

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line range

124

Corridors and communications

from the point of view of the correct lighting of the corridor and the communication zones. The corridors, staircases and The illumination of the ceiling is elevators represent the comalso important, especially due munication paths connecting to the feeling of orientation. the key points inside the The luminaires with a wide building in the framework curve of the luminous intensity of the office space. Their apor suspended lighting fixtures propriate illumination brings with the direct or indirect easier orientation even in an luminous flux distribution that unknown space, increases the sufficiently illuminate all the feeling of comfort and safety. corridor surfaces are suitable for this purpose. The long corridors The communication zones in can add interest by works of the interior of the office build- art or paintings referring to the ings belong to the areas withcorporate culture. The accent out any permanent occurrence luminaires with a narrow beam of persons. In spite of this fact angle are able to improve the they also place certain demands attractiveness of this space. on the lighting quality. Due to their long lifetime and wide By placing a line of luminaires colour spectrum the luminaires to the upper ceiling corners of with the LED sources are the corridor, the so called cove optimal for this type of spaces. lighting, we can achieve its The lighting fixtures with a very optical enlargement. This type wide radiation curve are used of illumination belongs to the for the general lighting of the group of the ambient lighting corridors. They are also able to and it is often completed by effectively illuminate the wall the RGB function for mixing coedges and this brings an optical lours. The technology RGBW is enlargement and brightening used for reaching better pastel of the whole space. The ceiling colours. surfaced luminaires with the direct or indirect luminous flux The additional orientation distribution, the ceiling surfaced luminaires recessed in the floor luminaires with a wide radiation or the corridor wall give direccurve or suspended lighting tion to the strategic points in fixtures with direct or indirect the office space and especially luminous flux distribution fulfil the orientation and safety belong to this category. function. The illumination of the vertical They fulfil the same funcsurfaces is the most important tions on the staircases which

Corridors and communications

represent not only another communication but currently also a representative zone in the office space. When selecting the correct type of illumination we especially emphasise the minimisation of shadows and visibility of individual steps. Recessing the LED luminaires to each third step we achieve improvement of safety and

comfort for movement on the staircase. Due to the fact that the corridors and staircases fulfil the task of escape routes, during the designing process it is inevitable to schedule for installing the safety and emergency luminaires in compliance with the legal standards (see the chapter Safety and Emergency Lighting).

dw vision

135

line snappy

125

Through special lighting of the elevator door we achieve differentiation from the other doors in the communication zones. The immediate surroundings of the elevator can be highlighted by placing a ceiling luminaire over its door and by installing the wall luminaires on both sides of the elevator door. The sufficiently intensive illumination in this way makes this communication zone more visible and at the same time it will induce a pleasant atmosphere which is to remove the possible depression of people who feel unwell in the closed spaces.

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emergency 2760

XY

SAFETY AND EMERGENCY LIGHTING

The battery pack LED luminaires represent the optimal solution – the producers guarantee here the minimal lifetime of 50,000 In the spaces with an increa- hours. In this way the maintesed concentration of persons, nance costs are reduced and rooms without any access of compared to other light sources the daylight and in the com- the user can save up to 70 % of munication zones determined the power consumption. for escape paths the safety and emergency lighting helps The effectiveness of the LED to solve collision situations emergency lighting can be and reduces the risk of injury. increased by installing the additional optics and reflectors Regardless to the fact if it is a which will reduce the number power cut, danger of fire or of the LED luminaires when the another crisis situation, the task legal standard is fulfilled. of the safety and emergency lighting is to ensure the persons The requirement on the basic visibility and orientation safety and emergency lighting during leaving the space or to is adapted by the European make their access to the fire standard EN 1838. The EN 1838 extinguishers easier. Correctly standard specifies the minimum planned and carefully mainhorizontal lighting needed to tained emergency lighting can be 1 lx along the central axis of prevent an outbreak of panic, escape path that has to be at injuries and even save lives. least 2 m wide. When selecting the type of the emergency lighting the requirement on its long-term lifetime and the ability to fulfil its tasks at good visibility also during the power cut plays the most important role.

Emax

Emin

Emax

Emin

Emax

REQUIREMENTS ON EMERGENCY LIGHTING Illuminace Emin = 1 lx Uniformity Emax: Emin ≤ 40: 1 lx Colour Rendering Index CRI ≥ 40 Operating time 1 h Activation of lighting 50 %, or for required illuminance within 5 seconds, 100 % within 60 seconds

SAFETY AND EMERGENCY LIGHTING

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125

CORRIDORS

Thanks to the linear light source we achieve sufficient values of illuminance and mainly the high lighting uniformity. This representative corridor is equipped with ambient illumination with the RGB function of mixing colours. The space becomes livelier, nicer and more relaxed. At the same time it increases the vertical wall illuminance and so it improves the ability of the moving persons to orient themselves in the space and minimises the risk of injury.

The ambient lighting is adjusted by the lighting scene which individually alters various colour shades according to the selected regime and actual time in dependence on which part of the day the illumination is determined (morning, lunchtime, before leaving work, etc.). The individual scenes are pre-programmed and can be individually induced or modified through the touch panel. The classical technology of the light source in the form of the fluorescent lamp achieves average values in the chapter Ecology. An increase of the

CORRIDORS / LQS composer

light source efficacy and reduction of power by up to 10 % can be reached only through using the energy saving version of the light source. In spite of this we achieve the LENI factor amounting only 39.15 kWh/ year/m2 with this light solution which ranks this type of space to the least effective class G.

Although the individual luminaires are connected to the system in the distance of up to 4.5 metres, they are still able to fulfil the normative requirements for sufficient illuminance – 150 lx with UGR <19 (the standard requires UGR=28). From the emotional point of view the system contains the function daylight simulation. The space attractiveness is increased by the accent lighting emphasising the importance of the paintings on the wall. The contrast against the basic illumination with the ratio 5:1 attracts the attention of everybody

who enters the room (the eye catcher). This lighting solution achieves its long lifetime and minimal demands on maintenance the maximally high marks in the category Ecology thanks to the LED technology.

presence, constant and daylight sensors. Thanks to these sensors we can reach energy savings up to 81 %. LENI in the space achieves only 4.03 kWh per one square metre a year with this lighting system.

Due to the fact that it is a space with sufficient daylight and at the same time a space with only sporadic LQS assigns 4 points to this space movement of persons, it represents a and ranks it to the space category potential for power saving. The light- with a good lighting quality. ing system is controlled by a complex system utilising all three functions of the lighting management system: the

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arcline optic led rgb

149

FACADE The task of the office of building illumination is not only to make it visible during night hours. The light as the fourth architectonical dimension is able to accent the construction character, to emphasise interesting details and at the same time to communicate the message of the company and corporate culture. The head building is a flagship of every successful company and is determined not only for carrying up the operative activities but also for representation. The correct facade illumination is able to breathe style and elegance to the modern glasswalled buildings; it helps to accent the not interchangeable character of the historical ones. The play of light and shadow is able to conjure dramatic sceneries in dependence on the type of lighting and installation of luminaires and to breathe the office spaces life even after ending the working hours. The illumination of large facade surfaces can be achieved by installing luminaires with a wide luminous intensity curve placed e.g. on the columns in front of the building. When we place an accent luminaire directly on the facade wall, it can emphasise interesting architectonical as well as artistic elements, e.g. the sculptures, to emphasise the stuccowork of a historical building or to illuminate solved cornice in an interesting way.

FACADE

The luminaires recessed to the ground with an asymmetric radiation curve placed in an optimal distance form the facade accent the vertical contours of the walls, their lighting by spotlights from the bottom emphasises the architectonical details of the building (balconies, cornices, sculptures, etc.). The used LED luminaires can be enriched by the RGB function of mixing the colours and to strengthen the emotional effect of the illumination.

tractiveness of the light solution by gradual switching on and off of the selected scenes or the company logo.

From the point of view of selecting a light source also in the case of the facade illumination, it is valid that effectiveness, functionality and economy of the LED luminaires highly exceed the parameters of the standard metal-halide lamps. The LED RGB modules are able to interpret up to 16.7 million colour tones, they work more When planning the light solureliably also at low external tion of the facade the selection temperatures and thanks to of the light colour is one of the their long lifetime they reduce decisive factors. The modern the demands on the service architecture with clean lines is and maintenance. The exterior flattered by a white neutral light illumination of the office buildand vice versa, the historical ing requires sophisticated light buildings become apparent solution also because of the after dark in the light of warmer orientation and safety. Beside colours. The dynamic illumina- representation its task is to ention is able to increase the athance the fast orientation in the space (e.g. to lead to the main gate or entrance to the parking lot) and to improve the safety of the moving persons during the night hours. However, during solving the facade illumination, we should not forget about the lighting of the adjacent green areas. The coniferous and broad-leaved trees become apparent in the light of the sodium discharge lamps, while the dark-green trees in the light of the metalhalide light sources. By their suitable placement we can achieve an attractive multicolour effect.

The modern architecture with clean lines is flattered by a white neutral light and vice versa, the historical buildings become apparent after dark in the light of warmer colours.

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ARCSOURCE INGROUND

149

lighting quality standard

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FORSTREET SYRMA

148

EXTERIOR ILLUMINATION AND PARKING AREAS Besides the aesthetic task, the exterior lighting especially fulfils the security function. It makes the orientation in the external spaces easier, it refers to the entrances and the entry ways to the building, it increases the feeling of safety and comfort.

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The increased demand on the illumination of the external spaces is especially where the pedestrians, bikers and car drivers meet. The correctly illuminated vertical as well as horizontal areas minimise the risk of collision and provide enough information about the orientation in the space. The access roads and external parking lots are made visible by the pole luminaires; decent in the ground recessed lighting fixtures separate the parking areas from the traffic lanes and the pedestrian zones. For all types of luminaires for external usage there are strict criteria as to the resistance against humidity, the temperature fluctuations and pollution. Also the underground parking lot places special demands on the intensity and type of illumination, beginning with the luminaire marking the entrance and way out, through the guidance lighting up to general lighting of the functional area.

EXTERIOR ILLUMINATION AND PARKING AREAS

One of the most important tasks of the lighting system designers when they solve the illumination of an underground parking lot is the entrance and exit zone from the parking area in the framework of which the light scenery is distinctively changed. Such an environment places extraordinary demands on the adaptation phase of the human eye during transition from various light environments. It is inevitable to reduce this phase to minimum. The optimal solution includes a higher density of the luminaires installed in these zones (similarly as in the tunnels) which means a softer transition.

and a long lifetime placed on both sides of the traffic lanes. A sufficient illumination especially in the areas with irregular occurrence of people is inevitable also from the security point of view. It enables the persons to recognise faces and to respond in time to the first signs of aggression.

When designing the light solution it is to also take into account the lifetime of the light sources. From the point of view of the lifetime and demandingness on the maintenance the LED luminaires are especially suitable. As they are areas without any access of daylight and at the same time without perThe task of the general lighting manent occurrence of persons, in the underground parking it is suitable from the point lot is not only to ensure the of view of energy saving to basic visibility but to provide consider the installation of the the person in the parking constant illuminance sensor and area a feeling of comfort and presence detector that scans security. For the road users in the movement of the vehicles the parking lot environment to in the garage, manages the be able to assess and solve the illumination in the zones where situation sufficiently quickly, it it is necessary and creates the is inevitable to choose the lumi- guidance lines in the area of the naires with the lighting intensity underground parking lot. of minimally 75 lx. In general it is recommended to use the luminaires in anti-vandal version

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SELECTIoN of THE RIGHT SOURCE The individual spaces in the office building place different demands on the illumination and require using the light sources with various parameters. The task of a lighting designer is to correctly choose either an LED source or a fluorescent lamp with corresponding parameters.

Colour rendering index (CRI) from-to

Power rating from - to (W)

Luminous flux from - to (lm)

Efficicacy from - to (lm/W)

Light colour

Tube-shaped fluorescent FD (T8) Ø 26 mm

18 - 70

860 - 6200

61 - 93

ww/nw/dw

80 - 96

G13

Tube-shaped fluorescent FDH (T5) Ø 16 mm

14 - 80

1100 - 6150

67 - 104

ww/nw/dw

80 - 93

G5

Compact fluorescent lamp 2 or 4 tube, elongated construction

5 - 57

250 - 4300

46 - 90

ww/nw/dw

80 - 90

2G11 2G7

Compact fluorescent lamp 3 or 4 tube, compact construction

60 - 120

4000 - 9000

67 - 75

ww/nw

80 - 85

2G8-1

Metal halide - single-end mounting with ceramic technology

20 - 400

1600 - 46000

80 - 100

ww/nw

80-95

G12

Metal halide - single-end mounting with ceramic technology

70 - 250

5100 - 25000

73 - 100

ww/nw

80-85

PGJ5

Metal halide lamps - double-end mountings

70 - 150

6800 - 14500

86 - 115

nw/dw

88-95

RX7s

Tubular shape with ceramic technology and with reflector

45 - 315

2200 - 128000

96 - 120

nw/dw

82-90

GX8,5

High-pressure sodium - ellipsoidal shape

35 - 1000

2200-128000

63 - 139

ww

25, 65

PG12-1

High-pressure sodium - tubular shape

50 - 1000

4400 - 130000

70 - 150

ww

25, 65

GX12-1

3 -7

90 - 806

37 - 46

ww/nw/dw

80 - 90

GU10 E27

24-30

700 - 1900

51 - 66

ww/nw/dw

70 - 90

G13

0.2 - 50

100 - 5000

90 - 160

ww/nw/dw

70 - 98

-

Lamp type

LED retrofit

LED tubes Ø 26 mm

LED module

ww = warm white correlated colour temperature (CCT) below 3,300 K nw = neutral white correlated colour temperature (CCT) 3,300 K to 5,300 K dw = daylight white correlated colour temperature (CCT) over 5,300 K

SELECTIoN of THE RIGHT SOURCE

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LED for office When in 1962 the American professor Nick Holonyak created the prototype of the first “light emitting diode” – LED, his invention remained almost unnoticed. The only one who anticipated its revolutionary future on the pages of the magazine Rider´s Digest was the inventor himself. It lasted almost forty years until the industry revealed all the exceptional properties of the LED and learned how to utilise them. In the lighting industry the LED sources currently represent an area that is developing in the most dynamic way. In what respect are the LED sources so exceptional and exceed the properties and parameters of the conventional sources? Why do the architects, developers and users of office buildings concentrate more and more frequently on the LED sources when designing the lighting systems? It would be possible to answer in a very simple way: The LED sources are highly effective, they have a long lifespan and an excellent colour rendering, they are cost-effective and environmentfriendly. But let us have a look at the individual categories more thoroughly and we will explain why the LED sources represent also for your office spaces the best solution.

The LED sources are based on the semi-conductor basis. A very small amount of energy is necessary for emitting the light. The diodes emitting light consist of two types of semi-conductors – the N-type with surplus of electrons and the P-type which has lack of electrons (the so called holes). After connecting the power the excessive electrodes and holes begin to migrate to the PN junction. When they meet the recombination develops and the diode starts emitting a photon. By its size that is not larger than a dot made by a pencil the LED ranks among the smallest light sources. The package which is at the same time a lens serves as protection. It enables distributing the

luminous flux directly under the angle 15 to 180°. While a common light bulb is able to change into visible light only 5 % and the fluorescent lamp 30 % of the electric power, the LED with its ability to change up to 40 % of the total energy reaches incomparably better parameters in this category. The efficiency of the light source or its efficacy says with what efficiency the electric energy is changed into the light, i.e.

how much of luminous flux it produces fem. the electric input power (W) delivered to the light source. The unit is lumen per watt (lm/W). While the first LEDs in 1996 had an efficacy of 0.1 lm/W, today there are commercially available LED chips with an efficacy of 160lm/W for cool white CCT LED and in the labs there has been achieved an efficacy of up to 254 lm/W. .

Reflective cup Emitted light Molded epoxy lens

p-type GaN

Positive terminal

Active region

Negative terminal

n-type GaN

Anoded wire y 0,9

Photon Anode lead Cathode lead

520

0,8

540

0,7

Hole

560

0,6 500

Electron

580

0,5

600

0,4

620

0,3490

If the LED sources after binning are on the Planck curve, they emit “pure white”, i.e. pure white light.

LED for office

700

0,2 0,1

480 470

460 380 0,0 0,0 0,1 0,2

0,3

0,4

0,5

0,6

0,7

0,8 x

Another method making it possible to acquire the white LED light consists of mixing the coloured light of various wavelengths. Through additive mixing the red, green and blue colours (RGB) the white light can arise. The advantage of this method is that besides the white light by targeted mixing we can also acquire coloured light. The disadvantage when acquiring the white light by the RGB technology consists in its demandingness. It requires a lot of know-how because the management of the coloured LED with various values of luminance is demanding and the white light produced often achieves lower values of the colour rendering index CRI 70 – 80. If we consider changes of the correlated colour temperature of the white light when solving the illumination in the offices, it is suitable to combine the coloured chips with white LEDs. In this way optimal CRI values are obtained.

Colours straight from the semiconductor LEDs do not require colour filters: their light comes in different colours produced directly by different semiconductor materials. Secondary colours are also possible. The major semiconductors are: Semiconductor material

Abbreviation

Colour(s)

Indium gallium nitride

InGaN

green, blue, (white)

Aluminium indium gallium phosphide

AlInGaP

red, orange, yellow

Aluminium gallium arsenide

AlGaAs

red

Intensity (counts)

The LED luminaires used in the office spaces have to fulfil high ergonomic and economic requirements. In the office they are required to deliver high-quality, glareless lighting for the optimal visual comfort also for the Visual Display Units (VDU) and at the same time they have to fulfil the requirements of the European standards. The LED diodes are primarily the source of the white colour radiation. The white LED light can be acquired by various methods; however, the principle of luminescence is most frequently used for its production. In this method a thin phosphorus layer is applied to the blue LED which, after the switching on of the source, changes part of the blue light which passes it into the white one. This technology of the LED production enables achieving the emission of the white light with various correlated colour temperature from 2,700K to 10,000 K.

Blue peak 4000 3500 3000 Yellow phosphor 2500 1500 1000 500 0 300 350 400 450 500 550 600 650 700 750 800 Wawelenght (nm)

White light can be produced by combining blue and yellow light only. Sir Isaac Newton discovered this effect when performing colour-matching experiments in early 1700s. SpectrUM of white and coloured LEDs

watts

1,2

1,0

0,8

0,6

0,4

0,2

0

380

430

480

530

580

630

680

730

nanometres

LEDs do not require colour filters. The colour tone of the light is determined by the semiconductor material used and the dominant wavelength.

From the point of view of the lifespan the LED light sources achieve above-average parameters. Their lifespan moves in the values of up to 50,000 hours which represents 18 years for 11-hour-operation daily, 250 days a year. The drop of the light source performance

to 70%, in some cases to 50 % is introduced as the LED lifespan end. It means that the LED failure rate is substantially lower compared to the conventional sources. However, appropriate cooling of the light source is a necessary condition for maintaining the lifespan parameters.

Definition of lifespan luminous flux (lm)

Gallium arsenide phosphide

GaAsP

red, orange, yellow

Silicon carbide

SiC

blue

Silicon

Si

blue

The lifespan of the LED sources moves in the values of up to 50,000 hours which represents 18 years for

100%

75%

50%

25%

0%

Tc(2)

Tc(1)

T50(a) T T70(a)

T70(b)

hours

50(b)

LEDs do not fail but the intensity of the light they produce diminishes over time. The lifespan (L) of an LED thus needs to be defined for different applications. For emergency lighting, for example, rating up to L80 ore more are required, this means that the LED reaches the end of its service life when the luminous flux falls to 80 percent of the original flux measured. For general lighting, values of L50 or L70 are defined. The lifespan of an LED depends on a large extent on ambient and operating temperature. Where an LED is operated at a high temperature (Tc1) or with poor thermal management, its life is shortened.

11-hour-operation daily, 250 days a year.

100/101

In spite of higher purchase costs the LED sources represent in a longer-term horizon the most effective and economical light solution. The experts estimate that if we replaced all existing light sources for the LED ones today, the energy savings worldwide could reach the amount of 30 %. If we realise that the artificial lighting consumes up to one fifth of the energy produced, this amount is not negligible at all. When we take into account a smaller area, e.g. the office space illuminated by obsolete conventional sources, we would be able to save up to 75 % of lighting system input power by the controlled LED illumination. All light sources also produce the IR radiation during the change of the electric power into the light which the human organism perceives as heat. However, the LED light sources produce it in a negligible amount compared to the conventional sources and thus they do not increase the inadequate costs for the air-conditioning power consumption. The lifespan and failure rate of the LED sources reduces the lighting system maintenance costs as it does not require any regular interventions of service staff and purchasing new light sources.

LED for office

The LED source saving potential can be maximised by installing the intelligent lighting management which enables adjusting the radiation intensity of every luminaire in the lighting system automatically in dependence on the availability or intensity of the daylight. The environment-friendly approach is a topic also for the producer of the light sources today. The reality is that the majority of the conventional light sources cannot be produced without using the toxic heavy metals – lead and mercury. The users of the premises equipped with this type of light sources have an additional burden when they replace them as they are compulsory to remove the used or damaged sources in compliance with the law about disposal of the toxic waste and on the other hand they are exposed to the risk of breathing the toxic vapours when the light source is damaged. In this respect the LED sources represent an incomparably lower risk. Though they contain a small amount of heavy metals, they are in solid state and so there is no danger of breathing in the toxic vapours when the LED source is damaged.

Thermal management Similarly as in the case of other light sources, the temperature significantly affects the performance of the LED light source. Without any adequate thermal management overheating of the LED source can develop and it reduces its lifespan and the risk of its damage is also increased. Implementing a suitable cooling system we achieve

maintaining the declared lifespan of the LED light source and its high efficacy. From this point of view the thermal management represents the most critical factor for the luminaires with the LED source.

Binning During the industrial production of LEDs deviations of the key parameters arise in the individual batches. In the framework of one batch the parameters are generally the same, but when we compare two various batches, the LEDs difference e.g. in colour or the luminous flux. To ensure the constant quality of light with the same level of luminance and colour of the light, it is inevitable to sort out every batch according to the value of individual parameters. This sorting is called binning. The main criteria taken into account when binning are as follows: the luminous flux measured in lumens (lm), the correlated colour temperature y

0,9

measured in Kelvins (K); the forward voltage measured in volts (V). The LED sources are nowadays classified according to the binning standard ANSI. This standard defines the colour shades of LED by the MacAdam ellipses which depicts the colour deviation on the axis X and Y. The MacAdam ellipses shows how the colour of the individual LED modules can differ. The binning standard ANSI recommends for the resulting colours to be inside of the ellipse on the curve with four threshold values. The binning groups of the LED sources which show minimal differences of the values measured will produce the light of the same colour.

Cy

520

ANSI colour codes

0.43

0,8

540

spectral locus

0,7

0.38

560

0.33

0,6 500

580

0,5

0.28 blackbody radiation curve

600

0,4

620

0,3490

700

0,2 0,1

line of purples

480 470 460

0,0 0,0 0,1

380

0,2

theoretical colours

0,3

0,4

0,5

0,6

0,7 0,8 x

0.27

0.32

0.37

0.42

PWM control The Pulse Width Modulation (PWM) represents the most effective method how to check the intensity of the LED light source. The PWM principle is based on periodical switching on and off of the constant current directed to the LED. The resulting intensity of the LED light source is characterised by the ratio between the state of switching on and off. The frequency of switching on and off is adjusted for the human eye to perceive the emitted light

On Fluorescent IEC 60081 Planck Daylight ANSI 2700 ANSI 3000 ANSI 3500 ANSI 4000 ANSI 4500 ANSI 5000 ANSI 5700 ANSI 6500

0.47 Cx

The LED sources are mostly classified in compliance with the binning standard ANSI. ANSI defines the colour shades in the space xy of the Mac Adam ellipse. According to the standard the defined colours should be inside of the ellipse on the curve with four threshold values.

50% Duty-Cycle

On

Power

Off 0

as a continuous luminous flux. Its intensity depends on the adjustment of the PWM cycle (0 % to 100 %). The advantage of the impulse width modulation is the maintaining of the constant correlated colour temperature in the whole range of dimming.

70% Duty-Cycle

Power

20 Time (miliseconds)

40

Off 0

20 Time (miliseconds)

40

Compared with the conventional light sources the LED light sources reach the full luminance immediately. The immediate start of the LED source is a benefit from the point of view of safety and comfort. At the same time compared to the conventional sources, frequent switching on and off does not make any damage to the LED source and does not reduce its lifespan as well.

102/103

lighting quality standard

12/13

BASIC TERMS LUMINOUS FLUX ÎŚ

The luminous flux is a physical quantity which states how much light in total a light source emits to all directions. It is the radiant power of the light source assessed from the point of view of the human eye sensitivity. The luminous flux expresses the ability of the radiant flux to cause a visual perception. The unit of the luminous flux is lumen (lm). LUMINOUS EFFICACY OF THE SOURCE

EFFICACY Ρ

The luminous efficacy states with what efficiency the electric power is changed into the light, i.e. what proportion of the luminous flux is produced from the input power (W) delivered to the light source. The unit is lumen per watt (lm/W).

LED High-pressure sodium lamp Metal halide lamp Linear fluorescent lamp Compact fluorescent lamp Mercury vapor lamp Low voltage halogen lamp Incandescent lamp

0

20

40

60

80 100

120

140

160 180

200

220

240

Lumen/Watt (without ballast losses)

LUMINANCE L

The luminance is the gloss of the shining or illuminated surface as the human eye perceives it. The unit is candela per square metre (cd/m2). This quantity gives the level of the luminous intensity over the specified surface area. The luminance of the illuminated surface depends in a great extent on its reflectance.

LUMINOUS INTENSITY I

The luminous intensity is a physical quantity which states what volume of the luminous flux the light source (or luminaire) emits to the elementary space angle in the direction evaluated. The unit of the luminous intensity is candela (cd).

ILLUMINANCE E

This vector quantity states what amount of the luminous flux falls to the illuminated surface. The unit of the illuminance is lux (lx).

GLARE

If too great luminance occurs in the field of vision of the eye, its differences or the spatial or time contrasts which exceed the vision adaptability, the glare arises. During the glare the activity of the visual system is deteriorated.

BASIC TERMS

intensity distribution curve

2,700 K

4,200 K

The correlated colour temperature of the light source determines the atmosphere in the room. It is defined by the correlated colour temperature of the light source expressed in kelvins (K). Low temperatures create a warm light, the high ones the cooler ones. The most used light colours are the warm white (over 3,300K), the neutral white (3,300 to 5,300 K) and the day white colour (over 5,300 K). The warm white colour is predominantly used for emphasising the red and yellow colour. The blue and green colours become apparent at higher temperatures.

CORRELATED COLOUR TEMPERATURE (CCT)

The properties of light source colour rendering are given in the levels of the general index of colour rendering – Ra. The CRI gives the rate of the congruence of the object surface’s real colour illuminated by the considered light source under stated conditions of comparison. The smaller this difference is, the better the property of the colour rendering of the given source is. The light source with Ra=100 renders all colours completely equally as a standard light source. The lower the index Ra is, the worse the colour rendering is.

COLOUR RENDERING INDEX (CRI)

6,500 K

CRI 70

CRI 95

The Light Output Ratio is the share of the luminous flux coming out of the luminaire and the sum of the luminous fluxes from all light sources.

106/107

LIGHT OUTPUT RATIO (LOR)

PRODUCT

12/13

PRODUCTS suspended

modular system

ceiling surfaced

ceiling recessed

rebell L led

114

tubus phact

114

tubus cygnus pendant

115

tubus vision pendant led

115

vario modul mini 2 led

115

vega as exclusive

115

modul razzor

117

modul eye

117

modul ray suspended

118

modul quark II

118

modul rendo

118

avant led

119

modul lambda max

120

modul ark

121

modul box suspended

121

modul Ray line

121

avant line led

122

avant line

122

line range 123 100 led suspended

line range 100 suspended

123

modul en line

124

line range pb 100 led

126

line range pb 100

126

tubus vision led

127

tubus cygnus

127

modul wings surfaced

127

saiph as

127

hellos as surfaced

128

modul box square surfaced

128

modul box max

130

modul lambda

130

modul lambda max

130

modul exe II

131

modul ray surfaced

131

line range 100 led 131 surfaced single piece

downlight castra

133

downlight castor

133

downlight cygnus II

134

downlight caim

134

downlight caim trimless

134

downlight noviel

134

downlight poluks

136

downlight square

137

downlight square trimless

137

downlight quadro

137

downlight cube

137

caph

138

PRODUCTS

modul box 116 square suspended

hellos as suspended

116

modul wings suspended

116

modul box max

116

modul spiker

avant

119

modul exe II led

119

modul exe II

120

modul en

119

modul lambda II line

124

line range 100 led surfaced

124

line range 100 surfaced

125

line snappy

indirect 128 as f-duo microprisma

classic asn

129

classic 129 asn A1/a2/a3/a4/a5/a9

tornado pc led

132

tornado pc

132

downlight prepus

135

downlight mira

135

downlight propus

hellos

138

becrux

138

gacrux

117

modul clearAnce

117

line range 100 LED 110 suspended single piece

modul lambda

120

125

relax H line

126

relax 126 line asymmetric led

modul ark

129

modul box surfaced

129

modul quark II

130

135

downlight vision led

135

downlight vision eco

136

downlight vision

136

138

vega exclusive

139

vega standard

139

saiph

139

110/111

PRODUCTS ceiling recessed

baten

140

terzo led

140

terzo hybrid

140

terzo

140

mirzam

141

indirect satin

141

relax a3

142

relax a4

142

relax a5

105

relax a9

142

line range pb 100 led single

143

line snappy single piece

143

track system

vario track 11/12 led

144

vario track exe

144

vario track diffuse

144

wall mounted

vario mini 1/2 led

144

wall cygnus

145

avant wall led

145

avant wall

145

freestanding

box freestanding

146

emergency

UX-emergency 2600

146

UX-emergency 2610

146

UX-emergency 2810

147

UX-emergency 2760

147

street Lighting

FORSTREET SIRIUS

147

FORSTREET ASTEROPE 148

FORSTREET SIRIUS

148

architainment

arcpad xtreme

149

arcsource inground

arcsource twinwall

149

arcline optic led rgb

149

PRODUCTS

149

indirect F-duo microprisma

141

indirect xtp f-s microprisma ip54

141

relax asymmetric

143

relax H

143

indirect xtp c IP 54

142

relax xtp led

142

relax a1

142

relax a2

142

112/113

suspended Suspended luminaires suitable for applications with high ceilings, where perfectly excels distribution of light. Luminaires with direct or indirect characteristic of radiation can with their shape and design complete the atmosphere of room. Luminaires can be fitted with several types of light sources. From the

most efficient LED through metal - halide lamps to compact fluorescent lamps. According to the type of luminaire. Luminaires can be placed directly over the desired area of visual tasks and to provide sufficient illumination and required uniformity of lighting .

rebell This exceptionally successful concept presented at Light+Building 2010 was specifically developed for high ceilings and open spaces. Its unique design with vertically perforated openings was inspired by the most famous global cathedral bells. This intelligent lighting solution allows for the distribution of both direct

rebeLl l led

REBELL L LED 50° 3500lm 4000K 90

90

75

75

500 750 1000 1250 1500

60 45

60 45

version basic1

version basic 2

version basic 3

version basic 4

cd/klm

30

15 0 C0.0-C180.0

15

30 C90.0-C270.0

version exclusive 1

tubus phact

TUBUS PHACT LED 36° 1900lm 3000K 90

90

75

75

800 1200 1600 2000 2400

60 45

60

15 0 C0.0-C180.0

15

Light source LED Optical system Reflector Transparent cover glass Wiring Dimmable electronic control gear DALI (10-100%) Materials Housing – upper part: injected polycarbonate Housing – bottom part: non-transparent/opal injected polycarbonate Reflector: anodized aluminium Ring: Injected polycarbonate Reflector cover: clear polycarbonate/hardened glass Surface finish Various color variants

Type

REBELL L LED REBELL L LED REBELL L LED REBELL L LED

net lumen power output consumption (at Ta = 25 °C) (lm)

(W)

color rendering index CRI (Ra)

1850 2050 3200 3500

31 31 53 53

83 83 83 83

correlated color temperature CCT (K)

thermal management

3000 4000 3000 4000

• • • •

beam angle

PASSIVE 50° 50° 50° 50°

The shape of this striking pendant luminaire suitably supplements every spacious public interior, hall, retail and cash point. Its design is reminiscent of the mouth of a fireplace and gives spaces a spirit of intimacy. The reflector made of highly-polished aluminium focuses the high luminous flux from the Fortimo DLM. Light source LED Optical system Reflector Wiring Electronic control gear On request: dimmable electronic control gear DALI (10-100%) Materials Housing: sheet steel, reflector: anodized aluminium Surface finish Housing: RAL 9006 with metallic effect, RAL 9003 white on request

45

cd/klm

30

version exclusive 2

and indirect light flux. The luminaire is also manufactured in LED version. As well as the basic variant made in high-gloss and opal-gloss finish, it is also available in other exclusive colours that match designer’s ideas and interior architect’s requirements.

30 C90.0-C270.0

Type

TUBUS PHACT TUBUS PHACT TUBUS PHACT TUBUS PHACT TUBUS PHACT TUBUS PHACT

PRODUCTS

net lumen power output consuption (at Ta = 25 °C) (lm) (W) 1050 1050 1900 1900 2800 2800

15 13 28 26 50 46

color rendering index CRI (Ra)

correlated color temperature CCT (K)

thermal management

80 80 80 80 80 80

3000 4000 3000 4000 3000 4000

• • • • • •

beam angle

PASSIVE 36° 36° 36° 36° 36° 36°

suspended tubus cygnus pendant

Light source LED Optical system Diffuser Wiring Dimmable electronic control gear Materials Housing: extruded aluminium, diffuser: opal plast Surface finish grey (RAL 9006), other colors on request

TUBUS CYGNUS PENDANT OPAL LED 90° 1000lm 3000K 90

90

75

75 200

60

60

300

Type

net lumen power color output consumption rendering (at Ta = 25 °C) index (lm) (W) CRI (Ra)

TUBUS CYGNUS/PENDANT TUBUS CYGNUS/PENDANT TUBUS CYGNUS/PENDANT TUBUS CYGNUS/PENDANT

tubus vision pendant LED

700 700 1000 1000

net lumen power color output consumption rendering (at Ta = 25 °C) index (lm) (W) CRI (Ra)

TUBUS VISION PENDANT LED TUBUS VISION PENDANT LED TUBUS VISION PENDANT LED TUBUS VISION PENDANT LED

3000 4000 3000 4000

• • • •

beam angle

1100 1100 2000 2000

15 13 28 26

80 80 80 80

net lumen power output consumption (at Ta = 25 °C) (lm) (W)

VARIO MODUL MINI 2 LED 2200 52 (42*) VARIO MODUL MINI 2 LED 2200 48 (38*) VARIO MODUL MINI 2 LED 4000 84 (74*) VARIO MODUL MINI 2 LED 4000 76 (66*) * power consumption without decorative LED ring

Light source Optical system Wiring Materials Surface finish

45

45 cd/klm

30

PASSIVE

INDIRECT VEGA AS INDIRECT VEGA AS

power consumption

3600 3600

30 C90.0-C270.0

correlated color temperature CCT (K)

thermal management

3000 4000 3000 4000

• • • •

90

90

75

75 200

60

60

300 45

45 cd/klm

30

15 0 C0.0-C180.0

15

30 C90.0-C270.0

beam angle

PASSIVE 97° 97° 97° 97°

VARIO MODUL MINI 2 LED 27° 4000lm 4000K 90

90 75

75 1000 1500 2000

60 45

60 45

2500 cd/klm

30

color rendering index CRI (Ra)

correlated color temperature CCT (K)

thermal management

>80 >80 >80 >80

3000 4000 3000 4000

• • – –

15 0 C0.0-C180.0

15

30 C90.0-C270.0

beam angle

PASSIVE 24° 24° 27° 27°

LED Reflector, diffuser Dimmable electronic control gear DALI (10-100%) Housing: sheet steel, reflector: aluminum sheet, diffuser: acryl satine Housing: black (RAL 9005), reflector: white (RAL 9003) net lumen output (at Ta = 25 °C) (lm)

15

TUBUS VISION PENDANT POLISHED LED 97° 2000lm 3000K

VEGA AS EXCLUSIVE LED 3600lm 4000K 90

90 75

75 100

60

correlated color temperature CCT (K)

thermal management

(W)

color rendering index CRI (Ra)

55 55

>80 >80

4000 3000-5000

• •

PASSIVE

114/115

60

150 200

45

Type

15 0 C0.0-C180.0

90° 90° 90° 90°

Light source LED Optical system Reflector Wiring Electronic control gear On request: dimmable electronic control gear DALI (10-100%) Materials Housing: aluminium profile, covers: ABS Installation plate: galvanised sheet steel Plastic box for control gear: ABS Surface finish Housing: grey (RAL 9006) Plastic box for control gear: grey with metal pigment

Type

vega as exclusive

>90 >90 >90 >90

thermal management

Light source LED Optical system Reflector Wiring Electronic control gear On request: dimmable electronic control gear DALI (10-100%) Materials Housing: polycarbonate Reflector: polycarbonate wit evaporative coating (polished/white) Decorative ring: polycarbonate Surface finish Housing: upper part - grey, lower part - grey, other colors on request Decorative ring: red, other colors on request

Type

vario modul mini 2 led

10 10 15 15

correlated color temperature CCT (K)

45

250 cd/klm

30

15 0 C0.0-C180.0

15

30 C90.0-C270.0

suspended MODUL BOX SQUARE LED 4100lm 3000K 90

90

MODUL BOX SQUARE SUSPENDED

75

75 200

60

60

300 400

45

45

Light source LED Optical system Diffuser Wiring Electronic control gear On request: dimmable electronic control gear DALI (10-100%) Materials Housing: sheet steel, frame: extruded aluminium profile Diffuser: PMMA OPAL + PMMA diamond microprisma Surface finish Black (RAL 9005), silver grey (RAL 9006), other colors on request

cd/klm

30

15 0 C0.0-C180.0

15

30 C90.0-C270.0

Type

net lumen power output consumption (at Ta = 25 °C) (lm) (W)

MODUL BOX SQUARE MODUL BOX SQUARE MODUL BOX SQUARE MODUL BOX SQUARE

HELLOS AS LED SUSPENDED 4300lm 4000K 90

hellos as SUSPENDED

90 75

75 300

60

60

450 600

45

Light source Optical system Wiring Materials Surface finish

950 950 4100 4100

14 14 52 52

color rendering index CRI (Ra)

correlated color temperature CCT (K)

thermal management

>80 >80 >80 >80

3000 4000 3000 4000

• • • •

color rendering index CRI (Ra)

correlated color temperature CCT (K)

thermal management

80 80

4000 4000

• •

PASSIVE

LED Reflector + refractor Electronic control gear Housing: sheet steel, reflector: vacuum coated plastic Refractor: etched PMMA White (RAL 9003), other colors on request

45

750 cd/klm

30

15 0 C0.0-C180.0

15

30 C90.0-C270.0

Type

net lumen power output consumption (at Ta = 25 °C) (lm) (W)

HELLOS AS-1 HELLOS AS-4

MODUL wings SUSPENDED

MODUL WINGS PAR-Vm 3x24W 90

90

75

75

100 150 200 250

60 45

60 45

4300 4300

69 69

PASSIVE

Light source Linear fluorescent lamp FDH (T5) Optical system Parabolic microlouvre (PAR-Vm/PAR MAT-Vm) Wiring Electronic control gear On request: dimmable electronic control gear (1-10V/DSI/ DALI/switch DIM) Materials Housing: polycarbonate and sheet steel Parabolic microlouvre: anodized polished/mat, aluminium Surface finish Housing: black (RAL 9005), white (RAL 9003), other colors on request

cd/klm

30

15 0 C0.0-C180.0

15

30 C90.0-C270.0

Type

optical system PAR-Vm

PAR MAT-Vm

(W)

• •

• •

3x14 3x24

MODUL WINGS MODUL WINGS

MODUL BOX MAX LED DIR 4200lm 4000K 90

90

75

modul box max DIR/DIR-INDIR

75 200

60

60

300 45

45

400 cd/klm

30

15 0 C0.0-C180.0

15

30 C90.0-C270.0

MODUL BOX MAX LED DIR/INDIR 5350lm 4000K 120

105

90

90

75

75

60

MODUL BOX MAX DIR MODUL BOX MAX DIR MODUL BOX MAX DIR/INDIR MODUL BOX MAX DIR/INDIR

60 45

30 15 0 C0.0-C180.0

15

30 45 C90.0-C270.0

PRODUCTS

lamp

lampholder

FDH FDH

G5 G5

Light source LED Optical system Diffuser Wiring Dimmable electronic control gear DALI (10-100%) Materials Housing: sheet steel Frame: extruded aluminium profile Diffuser DIR: PMMA OPAL + PMMA diamond microprisma Diffuser INDIR: PMMA linear microprisma Surface finish Black (RAL 9005), silver grey (RAL 9006) Other colors on request

Type

120

300 200

105

power

net lumen power output consumption (at Ta = 25 °C) (lm) (W) 4200 4200 5350 5350

52 52 73 73

color rendering index CRI (Ra)

correlated color temperature CCT (K)

thermal management

>80 >80 >80 >80

3000 4000 3000 4000

• • • •

PASSIVE

suspended modul spiker

Light source LED Optical system Diffuser Wiring Dimmable electronic control gear DALI (10-100%) Materials Housing: extruded aluminium Diffuser: microprismatic + lumio Surface finish White (RAL 9003)

MODUL SPIKER LED 6300lm 3000K 90

90 75

75 100

60

60

150 200

45

45

250 cd/klm

30

Type

MODUL SPIKER MODUL SPIKER

modul CLEARANCE

net lumen output (at Ta = 25 °C) (lm)

power consumption

correlated color temperature CCT (K)

thermal management

(W)

color rendering index CRI (Ra)

6300 6600

120 120

80 80

3000 4000

• •

15 0 C0.0-C180.0

15

30 C90.0-C270.0

PASSIVE

Light source LED Optical system Edge lighting (EVONIC) Wiring Dimmable electronic control gear DALI (10-100%) Materials Body: aluminium + PMMA, cover: glass Surface finish Housing: grey

MODUL CLEARANCE LED 4300lm 6500K 160 120 80

90 75

90 75 60

60

45

45 cd/klm

30

Type

MODUL CLEARANCE

modul RAZZOR

net lumen output (at Ta = 25 °C) (lm)

power consumption

correlated color temperature CCT (K)

thermal management

(W)

color rendering index CRI (Ra)

4300

77

80

3000-6500

•

90

90

75

MODUL RAZZOR

modul EYE

correlated color temperature CCT (K)

thermal management

(W)

color rendering index CRI (Ra)

9000

130

>80

3000-6500

•

75

100 150 200 250 300

60

cd/klm

power consumption

30 C90.0-C270.0

modul razzor LED symmetric 9000lm 6500K

45

net lumen output (at Ta = 25 °C) (lm)

15

PASSIVE

Light source LED Optical system Reflector, diffuser Wiring Electronic control gear, remote control Materials Housing: aluminium, reflector: polished aluminium (symmetric + asymmetric) Diffuser: opal + microprismatic, indirect part: shaped primary lenses Surface finish Stainless steel, black, silver

Type

15 0 C0.0-C180.0

30

15 0 C0.0-C180.0

60 45 15

30 C90.0-C270.0

PASSIVE

Light source Linear fluorescent lamp FDH (T5) Optical system Microlouvre, two adjustable asymmetrical reflectors Wiring Dimmable electronic control gear DALI Servomotoric control of reflectors Materials Housing: sheet steel, microlouvre: anodized polished aluminium Reflectors: anodized mat aluminium Surface finish Housing: white (RAL 9016)

MODUL eye WIDE 4x54W 90

90 75

75 80

60

60

120 160

45

45

200 cd/klm

30

Type

MODUL EYE MODUL EYE

optical system

power

Microlouvre + ref.

(W)

• •

4x28 4x54

lamp

15 0 C0.0-C180.0

15

30 C90.0-C270.0

MODUL eye NARROW 4x54W

lampholder 90

90

75

FDH FDH

G5 G5

75 100

60

60

150 45

45

200 cd/klm

30

116/117

15 0 C0.0-C180.0

15

30 C90.0-C270.0

suspended MODUL ray suspended

MODUL RAY DIR-INDIR PAR-Vm 2x28W 120

120

160 120 80

105

105

90

90

75

75

60

60 cd/klm

45

30 15 0 C0.0-C180.0

15

30 45 C90.0-C270.0

Light source Linear fluorescent lamp FDH (T5) LED strips Optical system Parabolic microlouvre (PAR-Vm/PAR MAT-Vm), Diffuser Wiring Electronic control gear On request: dimmable electronic control gear (1-10V/switch DIM/DSI/DALI) Materials Housing: extruded aluminium Parabolic louvre: anodized polished aluminium Diffuser: polycarbonate, housing, end caps: polycarbonate Surface finish Housing: white (RAL 9003), grey (RAL 9006), black (RAL 9005)

Type

optical system PAR-Vm

PAR MAT-Vm

(W)

• • • • • • • • • • • • • • • • • • • • •

1x14* 1x24* 1x28* 1x35* 1x49* 1x54* 1x80* 2x14 2x24 2x28 2x35 2x49 2x54 2x80 3x14 3x24 3x28 3x35 3x49 3x54 3x80

MODUL RAY • MODUL RAY • MODUL RAY • MODUL RAY • MODUL RAY • MODUL RAY • MODUL RAY • MODUL RAY • MODUL RAY • MODUL RAY • MODUL RAY • MODUL RAY • MODUL RAY • MODUL RAY • MODUL RAY • MODUL RAY • MODUL RAY • MODUL RAY • MODUL RAY • MODUL RAY • MODUL RAY • * Blue LED ambient lighting on request

MODUL quark II

MODUL QUARK II DIR CDP FDH 4x28W 90

90

75

75 80

60

60

120 160

45

45

200

power

lamp

lampholder

FDH FDH FDH FDH FDH FDH FDH FDH FDH FDH FDH FDH FDH FDH FDH FDH FDH FDH FDH FDH FDH

G5 G5 G5 G5 G5 G5 G5 G5 G5 G5 G5 G5 G5 G5 G5 G5 G5 G5 G5 G5 G5

Light source Linear fluorescent lamp FDH (T5) Optical system Diffuser (MICROPRISMA CDP/CDP DIF) Wiring Electronic control gear On request: dimmable electronic control gear (1-10V/switch DIM/DSI/DALI) Materials Housing: sheet steel, extruded aluminium Diffuser: polycarbonate with two types of microprismatic finish CDP or CDP DIF Surface finish Housing: grey (RAL 9006), other colors on request

cd/klm

30

15 0 C0.0-C180.0

15

30 C90.0-C270.0

Type

optical system

MODUL QUARK DIR-INDIR MODUL QUARK DIR-INDIR MODUL QUARK DIR-INDIR MODUL QUARK DIR-INDIR MODUL QUARK DIR-INDIR MODUL QUARK DIR-INDIR MODUL QUARK DIR-INDIR MODUL QUARK DIR-INDIR

MODUL rendo

MODUL RENDO PRISMA CDP 2x54W 120

120

100 80 60 40

105

105

90

90

75

75

60

60

cd/klm

45

30 15 0 C0.0-C180.0

15

30 45 C90.0-C270.0

Light source Optical system Wiring Materials Surface finish

PRODUCTS

CDP

CDP DIF

(W)

• • • • • • • •

• • • • • • • •

2x28 2x35 2x49 2x54 2x80 4x28 4x35 4x49

lamp

lampholder

FDH FDH FDH FDH FDH FDH FDH FDH

G5 G5 G5 G5 G5 G5 G5 G5

Linear fluorescent lamp FDH (T5) Diffuser (MICROPRISMA LDP/CDP/CDP DIF) Electronic control gear Housing: extruded aluminium Diffusers: polycarbonate End caps: polycarbonate Housing: grey (RAL 9007), other colors on request

Type

MODUL RENDO MODUL RENDO MODUL RENDO MODUL RENDO

power

optical system

power

LDP

CDP

CDP DIF

(W)

• • • •

• • • •

• • • •

2x28 2x35 2x49 2x54

lamp

lampholder

FDH FDH FDH FDH

G5 G5 G5 G5

suspended avant led

Light source LED Optical system Diffuser (OPAL/MICROPRISMA) Wiring Dimmable electronic control gear DALI (10-100%) Materials Housing: extruded aluminium, end caps: die cast aluminium Diffuser: PC/PMMA, diffuser end caps: PC/PMMA Carrying plate: extruded aluminium Surface finish Powder coat finish – grey (RAL 9006)

AVANT LED OPAL 4200lm 4000K 300 250 200 150 100

120 105 90

90

75

75

60

60

cd/klm

45

Type

AVANT LED AVANT LED AVANT LED AVANT LED

avant

AVANT AVANT AVANT AVANT AVANT AVANT AVANT AVANT AVANT

MODUL en

• • -

• •

5050 5050 4200 4200

72 72 72 72

80 80 80 80

3000 4000 3000 4000

30 45 C90.0-C270.0

• • • •

optical system opal microprisma • • • • • • • • •

power (W)

lamp

lampholder

1x28 1x35 1x49 1x54 1x80 2x28 2x54 2x35 2x49

FDH FDH FDH FDH FDH FDH FDH FDH FDH

G5 G5 G5 G5 G5 G5 G5 G5 G5

• • • • • • • • •

AVANT OPAL 1x54W 300 250 200 150 100

120 105

optical system PAR-V2 PAR MAT-V2

MODUL EN MODUL EN

• •

• •

power (W)

lamp

lampholder

4x14 4x24

FDH FDH

G5 G5

Light source LED Optical system Diffuser Wiring Electronic control gear On request: dimmable electronic control gear DALI (10-100%) Materials Housing: sheet steel, diffuser: opal PMMA Surface finish White (RAL 9003), other colors on request

120 105

90

90

75

75

60

60

cd/klm

45

30 15 0 C0.0-C180.0

15

30 45 C90.0-C270.0

MODUL EN PAR–V2 FDH 4x24W 240 200 160

120 105

120 105

80

90

90

75

75

60

60

cd/klm

45

modul exe II LED

15

net lumen power color correlated thermal output consumption rendering color management (at Ta = 25 °C) index temperature opal microprisma (lm) (W) CRI (Ra) CCT (K) PASSIVE

Light source Linear fluorescent lamp FDH (T5) Optical system Parabolic louvre (PAR-V2/PAR MAT-V2) Wiring Electronic control gear On request: dimmable electronic control gear (1-10V/switch DIM/DSI/DALI) Materials Housing: elox aluminium Parabolic louvre: polished or mat aluminium Surface finish Housing: grey (RAL 9006), other colors on request

Type

30 15 0 C0.0-C180.0

optical system

Light source Linear fluorescent lamp FDH (T5) Optical system Diffuser (OPAL/MICROPRISMA) Wiring Electronic control gear On request: dimmable electronic control gear (1-10V/switch DIM/DSI/DALI) Materials Housing: extruded aluminium, end caps: die cast aluminium Diffuser: PMMA, diffuser end caps: PC/PMMA Reflector end caps: ABS/PMMA Carrying plate: extruded aluminium Surface finish Powder coat finish – grey (RAL 9006)

Type

120 105

30 15 0 C0.0-C180.0

15

30 45 C90.0-C270.0

modul exe II LED 4950lm 4000K 90

90

75

75 200

60

60

300 45

45

400 cd/klm

30

Type

optical system DIFFUSER

modul exe II LED modul exe II LED

• •

net lumen power output consumption (at Ta = 25 °C) (lm) (W) 4950 4450

70 70

color rendering index CRI (Ra) 80 80

correlated thermal color management temperature CCT (K) PASSIVE 4000 3000

• •

118/119

15 0 C0.0-C180.0

15

30 C90.0-C270.0

suspended modul exe II

MODUL EXE II DIR PAR–V2 FDH 1x35W 90

90

75

75

60

200

45

300

60

Light source Linear fluorescent lamp FDH (T5) Optical system Parabolic louvre (PAR-V2/PAR MAT-V2) Wiring Electronic control gear On request: dimmable electronic control gear (1-10V/switch DIM/DSI/DALI) Materials Housing: sheet steel, parabolic louvre: anodized polished aluminium Surface finish Housing: white (RAL 9003), other colors on request

45

cd/klm

30

15 0 C0.0-C180.0

15

30 C90.0-C270.0

Type

MODUL EXE II MODUL EXE II MODUL EXE II MODUL EXE II MODUL EXE II MODUL EXE II MODUL EXE II MODUL EXE II MODUL EXE II MODUL EXE II

line range 100 led suspended single PIECE

LINE RANGE 100 suspended SINGLE PIECE 4700lm 4000K 90

90

75

75 800

60

Light source Optical system Wiring Materials Surface finish

optical system PAR-V2 PAR MAT-V2 • • • • • • • • • •

• • • • • • • • • •

power (W)

lamp

lampholder

1x28 1x54 1x35 1x49 1x80 2x28 2x54 2x35 2x49 2x80

FDH FDH FDH FDH FDH FDH FDH FDH FDH FDH

G5 G5 G5 G5 G5 G5 G5 G5 G5 G5

LED Reflector, diffuser Dimmable electronic control gear DALI (10-100%) Housing: sheet steel, reflector: aluminium, diffuser: opal Housing: white (RAL 9003), reflector: white (RAL 9003)

60

1200 45

45

1600

Type

cd/klm

30

15 0 C0.0-C180.0

15

30 C90.0-C270.0

LINE RANGE 100 LED SINGLE PIECE LINE RANGE 100 LED SINGLE PIECE

MODUL LAMBDA DIR-INDIR PAR-V2 FDH 2x54W 120

120

200 150 100

105

modul lambda

105

90

90

75

75

60

60 cd/klm

45

30 15 0 C0.0-C180.0

15

30 45 C90.0-C270.0

net lumen output (at Ta = 25 °C) (lm)

power consumption (W)

color rendering index CRI (Ra)

CCT (K)

PASSIVE

4450

59

>80

3000

•

4700

59

>80

4000

•

Light source Linear fluorescent lamp FDH (T5) Optical system Parabolic louvre (PAR-V2/PAR MAT-V2), reflector (ASYMMETRIC) Wiring Electronic control gear On request: dimmable electronic control gear (1-10V/DSI/DALI/switch DIM) Materials Housing: sheet steel, parabolic louvre: polished/mat aluminium Reflector: polished anodized aluminium Surface finish Housing: grey (RAL 9006), other colors on request Type PAR-V2 MODUL LAMBDA MODUL LAMBDA MODUL LAMBDA MODUL LAMBDA MODUL LAMBDA

modul lambda max

MODUL LAMBDA MAX DIR-INDIR PAR-V2 FDH 2x54W 120

120

200 150 100

105

105

90

90

75

75

60

correlated color thermal temperature management

• • • • •

optical system PAR MAT-V2 ASYMMETRIC • • • • •

•/– •/– •/– •/– •/–

power (W)

lamp

lampholder

1x28 / 2x28 1x35 / 2x35 1x49 / 2x49 1x54 / 2x54 1x80 / 2x80

FDH FDH FDH FDH FDH

G5 G5 G5 G5 G5

Light source Linear fluorescent lamp FDH (T5) Optical system Parabolic louvre (PAR-V2/PAR MAT-V2) Wiring Electronic control gear On request: dimmable electronic control gear (1-10V/switch DIM/DSI/DALI) Materials Housing: sheet steel, parabolic louvre: polished/mat aluminium Surface finish Housing: grey (RAL 9006), other colors on request

60 cd/klm

45

30 15 0 C0.0-C180.0

15

30 45 C90.0-C270.0

Type

MODUL LAMBDA MAX MODUL LAMBDA MAX MODUL LAMBDA MAX MODUL LAMBDA MAX MODUL LAMBDA MAX

PRODUCTS

optical system PAR-V2 PAR MAT -V2 • • • • •

• • • • •

power (W)

lamp

lampholder

2x28 2x35 2x49 2x54 2x80

FDH FDH FDH FDH FDH

G5 G5 G5 G5 G5

suspended modul ark

Light source LED Optical system Parabolic louvre (PAR-L) Wiring Electronic control gear Materials Housing: sheet steel Parabolic louvre: polished aluminium Surface finish Grey (RAL9006) Other colors on request

MODUL ARK LED 1150lm 4000K 90

90

75

75

200 300 400 500

60 45

60 45

cd/klm

30

Type

optical system

net lumen power output consumption (at Ta = 25 °C) (lm) (W)

PAR-L modul ark

modul box suspended

•

1150

16

color rendering index CRI (Ra)

correlated thermal color management temperature CCT (K) PASSIVE

80

4000

15 0 C0.0-C180.0

15

30 C90.0-C270.0

•

Light source LED Optical system Diffuser Wiring Dimmable electronic control gear DALI (10-100%) Materials Housing: sheet steel, frame: extruded aluminium profile Diffuser: PMMA OPAL+PMMA diamond microprisma Surface finish Black (RAL9005), silver grey (RAL 9006) Other colors on request

MODUL BOX LED 1800lm 4000K 90

90 75

75 200

60

60

300 400

45

45

cd/klm

30

Type

optical system DIFFUSER

modul box sus.

net lumen power output consumption (at Ta = 25 °C) (lm) (W)

•

1800

35

color rendering index CRI (Ra) >80

correlated thermal color management temperature CCT (K) PASSIVE 4000

15 0 C0.0-C180.0

15

30 C90.0-C270.0

•

MODULAR SYSTEM modul Stylish fluorescent lamp luminaires, which direct the luminous flux either downwards, upwards reflecting indirectly from the ceiling, or a combination of these two methods (direct/reflected). For the required indirect light diffusion from the ceiling they need sufficient distance between the luminaire and the ceiling. The biggest advantage of the Modul luminaires is the possibility to combine the direct and indirect lighting. This combination can suppress sharply defined transitions between light and shadow, emerging on the walls when using louver luminaires, which strictly divide the luminous flux down in prescribed angles. However, that is not the only advantage of this system. Some of the others are: • the luminaires can be plugged into a coherent line,

modul ray line

• we can control lighting scenes by dimming, • it is very useful for lighting cash desk areas, but can be used as general lighting as well, • using the direct/indirect version highlights design of the ceiling and opticaly extents the space of the shop, • a possibility to use energy-saving fluorescent lamps, • the deployment of luminaires in lines one after another, we achieve a high uniformity of vertical illumination, • when illuminating racks, it does not glare customers due to the asymmetric light curve (at some types of luminaires), • due to high power they can be used in hypermarkets with high ceilings.

Light source Linear fluorescent lamp FDH (T5) Optical system Parabolic microlouvre (PAR-Vm/PAR MAT-Vm) Diffuser Wiring Electronic control gear, through wiring (F, T version) On request: dimmable electronic control gear (1-10V/switch DIM/DSI/DALI) Materials Housing: extruded aluminium Parabolic microlouvre: anodized polished aluminium Diffuser: polycarbonate, housing end caps: polycarbonate Surface finish Housing: white (RAL 9003)/grey (RAL 9006)/Black (RAL 9005)

Type

optical system PAR-Vm PAR MAT Vm

MODUL RAY LINE F/T/L • MODUL RAY LINE F/T/L • MODUL RAY LINE F/T/L • MODUL RAY LINE F/T/L • MODUL RAY LINE F/T/L • MODUL RAY LINE F/T/L • * Blue LED ambient lighting on request

• • • • • •

power (W)

lamp

lampholder

1x28* 1x54* 2x28 2x54 3x28 3x54

FDH FDH FDH FDH FDH FDH

G5 G5 G5 G5 G5 G5

120/121

modul ray line 2x28W 120

120

160 120 80

105

105

90

90

75

75

60

60 cd/klm

45

30 15 0 C0.0-C180.0

15

30 45 C90.0-C270.0

MODULAR SYSTEM avant line led

avant line led opal 5050lm 4000K 300 250 200 150 100

120 105

120 105

90

90

75

75

60

60

cd/klm

45

30 15 0 C0.0-C180.0

15

Light source LED Optical system Diffuser (OPAL/MICROPRISMA) Wiring Dimmable electronic control gear DALI (10-100%) Materials Housing: extruded aluminium, end caps: die cast aluminium Diffuser: PC/PMMA, diffuser end caps: PC/PMMA Carrying plate: extruded aluminium Surface finish Powder coat finish – grey (RAL 9006)

30 45 C90.0-C270.0

Type

AVANT LINE LED F AVANT LINE LED F AVANT LINE LED T AVANT LINE LED T AVANT LINE LED L AVANT LINE LED L AVANT LINE LED F AVANT LINE LED F AVANT LINE LED T AVANT LINE LED T AVANT LINE LED L AVANT LINE LED L

avant line

avant line par-v 2x28W 90

90

75

75

50 75 100 125

60 45

60 45

150 cd/klm

30

15 0 C0.0-C180.0

15

30 C90.0-C270.0

avant line par mat-v 2x28W 150 125 100 75 50

120 105

120

90

75

75

60

45

30 15 0 C0.0-C180.0

15

30 45 C90.0-C270.0

avant line symmetric 2x28W 90

90

75 60 45

AVANT TRACK LINE

75

100 150 200

• • • • • • -

5050 5050 5050 5050 5050 5050 4200 4200 4200 4200 4200 4200

• • • • • •

60

72 72 72 72 72 72 72 72 72 72 72 72

80 80 80 80 80 80 80 80 80 80 80 80

3000 4000 3000 4000 3000 4000 3000 4000 3000 4000 3000 4000

optical system

AVANT line F/T/L AVANT line F/T/L AVANT line F/T/L AVANT line F/T/L AVANT line F/T/L AVANT line F/T/L AVANT line F/T/L AVANT line F/T/L AVANT line F/T/L AVANT TRACK line

• • • • • • • • • -

power

PAR OPAL MICROPRISMA SYMMETRIC ASYMMETRIC MAT-V • • • • • • • • • -

• • • • • • • • • -

• • • • • • • • • -

• • • • • • • • • -

• • • • • • • • • -

45

300 cd/klm

30

15 0 C0.0-C180.0

15

30 C90.0-C270.0

par-v

symmetric

PRODUCTS

• • • • • • • • • • • •

Light source Linear fluorescent lamp FDH (T5) Optical system Diffuser (OPAL/MICROPRISMA), parabolic louvre (PAR-V/PAR MAT-V) Reflector (SYMMETRIC/ASYMMETRIC) Wiring Electronic control gear, through wiring (F, T version) On request: dimmable electronic control gear (1-10V/switch DIM/DSI/DALI) Materials Housing: extruded aluminium, end caps: die cast aluminium Diffuser: PC/PMMA, diffuser end caps: PC/PMMA Reflector: anodized polished aluminium, reflector end caps: ABS/PMMA Parabolic louvre: polished or mat aluminium Carrying plate: extruded aluminium Surface finish Powder coat finish – grey (RAL 9006)

PAR-V

60

cd/klm

net lumen power color correlated thermal output consumption rendering color management (at Ta = 25 °C) index temperature opal microprisma (lm) (W) CRI (Ra) CCT (K) PASSIVE

Type

105

90

optical system

par mat-v

microprisma

asymmetric

opal

lamp

(W) 1x28 1x35 1x49 1x54 1x80 2x28 2x35 2x49 2x54 max. 500

FDH FDH FDH FDH FDH FDH FDH FDH FDH -

MODULAR SYSTEM line range 100 led suspended

Light source LED Optical system Reflector, diffuser Wiring Electronic control gear On request: dimmable electronic control gear DALI (10-100%)/touchDIM Materials Housing: sheet steel Reflector: aluminium Diffuser: opal PMMA End caps: sheet steel Surface finish Housing: white (RAL 9003) Reflector: white (RAL 9003) Other colors on request Type

net lumen output (at Ta = 25 °C)

power consumption

(lm)

(W)

color rendering index CRI (Ra)

4450 4700

59 59

>80 >80

LINE RANGE 100 LED F/T/L LINE RANGE 100 LED F/T/L

LINE RANGE 100

3000 4000

LINE RANGE 100 LINE RANGE 100 LINE RANGE 100 LINE RANGE 100

PAR-v2

optical system

power

PAR-V2

par mat-v2

OPAL

ASYM

(W)

• • • •

• • • •

• • • •

– – – •

1x28 1x35 1x49 1x54

PAR MAT-V2

OPAL

90

75

75 800

60

60

1200 45

45

1600 cd/klm

30

15 0 C0.0-C180.0

15

30 C90.0-C270.0

correlated thermal color management temperature CCT (K) PASSIVE • •

Light source Linear fluorescent lamp FDH (T5) Optical system Parabolic louvre (PAR-V2/PAR MAT-V2) Diffuser (OPAL) Reflector (ASYMMETRIC) Wiring Electronic control gear On request: dimmable electronic control gear (1-10 V/switch DIM/DSI/DALI) Through wiring (F, T version) Materials Housing: sheet steel Parabolic louvre: anodized polished/mat aluminium Diffuser: polycarbonate Reflector: anodized aluminium Surface finish Housing: grey (RAL 9006) Other colors on request Type

LINE RANGE 100 LED 4700lm 4000K 90

lamp

lampholder

FDH FDH FDH FDH

G5 G5 G5 G5

ASYM

122/123

LINE RANGE 100 1x54 W 90

90

75

75

100 150 200 250 300

60 45

60 45

cd/klm

30

15 0 C0.0-C180.0

15

30 C90.0-C270.0

MODULAR SYSTEM modul en line

MODUL EN PAR-V2 FDH 2x28W 240 200 160

120 105

120 105

80

90

90

75

75

60

60

cd/klm

45

30 15 0 C0.0-C180.0

15

30 45 C90.0-C270.0

Light source Linear fluorescent lamp FDH (T5) Optical system Diffuser (MICROPRISMA), parabolic louvre (PAR-V2/PAR MAT-V2) Wiring Electronic control gear On request: dimmable electronic control gear (1-10V/switch DIM/DSI/DALI) Through wiring (F, T version) Materials Housing: sheet steel Diffuser: polycarbonate Parabolic louvre: anodized polished aluminium Surface finish Housing: grey (RAL 9006), other colors on request

Type

MODUL EN LINE F/T/L MODUL EN LINE F/T/L MODUL EN LINE F/T/L MODUL EN LINE F/T/L MODUL EN LINE F/T/L

MODUL LAMBDA II LINE PAR MAT-V2 DIR FDH 1x28W 90

MODUL LAMBDA II LINE

90

75

75 200

60

60

300 45

45

400 cd/klm

30

15 0 C0.0-C180.0

15

30 C90.0-C270.0

MODUL LAMBDA II LINE PAR-V2 DIR FDH 1x28W 90

power

PAR-V2

PAR MAT-V2

MICROPRISMA

(W)

• • • • •

• • • • •

• • • • •

2x28 2x54 2x35 2x49 2x80

lamp

lampholder

FDH FDH FDH FDH FDH

G5 G5 G5 G5 G5

Light source Linear fluorescent lamp FDH (T5) Optical system Parabolic louvre (PAR-V2/PAR MAT-V2), reflector (ASYMMETRIC) Wiring Electronic control gear On request: dimmable electronic control gear (1-10V/switch DIM/DSI/DALI) Through wiring (F, T version) Materials Housing: sheet steel, parabolic louvre: anodized polished aluminium Reflector: anodized aluminium Surface finish Housing: grey (RAL 9006) Other colors on request

Type 90

75

optical system

optical system PAR-V2 PAR MAT-V2

power (W)

lamp

lampholder

asymmetric • • • • • – – – – –

1x28 1x35 1x49 1x54 1x80 2x28 2x35 2x49 2x54 2x80

FDH FDH FDH FDH FDH FDH FDH FDH FDH FDH

G5 G5 G5 G5 G5 G5 G5 G5 G5 G5

75 200

60

Modul LAMBDA F/T/L Modul LAMBDA F/T/L Modul LAMBDA F/T/L Modul LAMBDA F/T/L Modul LAMBDA F/T/L Modul LAMBDA F/T/L Modul LAMBDA F/T/L Modul LAMBDA F/T/L Modul LAMBDA F/T/L Modul LAMBDA F/T/L

60

300 45

45

400 cd/klm

30

15 0 C0.0-C180.0

15

30 C90.0-C270.0

line range 100 led surfaced 4700lm 4000K 90

90

75

75 800

60

line range 100 led surfaced

60

1200 45

45

1600 cd/klm

30

15 0 C0.0-C180.0

15

30 C90.0-C270.0

• • • • • • • • • •

Light source LED Optical system Reflector, diffuser Wiring Electronic control gear On request: dimmable electronic control gear DALI (10-100%)/touchDIM Materials Housing: sheet steel, reflector: aluminium Diffuser: opal PMMA, end caps: sheet steel Surface finish Housing: white (RAL 9003), reflector: white (RAL 9003) Other colors on request Type

LINE RANGE 100 LED F/T/L LINE RANGE 100 LED F/T/L

PRODUCTS

• • • • • • • • • •

net lumen output (at Ta = 25 °C) (lm)

power consumption

correlated color temperature CCT (K)

thermal management

(W)

color rendering index CRI (Ra)

4450 4700

59 59

>80 >80

3000 4000

• •

PASSIVE

MODULAR SYSTEM LINE RANGE 100 surfaced

Light source Linear fluorescent lamp FDH (T5) Optical system Parabolic louvre (PAR-V2/PAR MAT-V2), diffuser (OPAL) Wiring Electronic control gear On request: dimmable electronic control gear (1-10 V/switch DIM/DSI/DALI), through wiring (F, T version) Materials Housing: sheet steel, parabolic louvre: anodized polished/mat aluminium Diffuser: opal/prismatic, reflector: anodized aluminium Surface finish Housing: grey (RAL 9006), other colors on request Type

optical system PAR-V2 PAR MAT-V2

LINE RANGE 100 F/T/L LINE RANGE 100 F/T/L LINE RANGE 100 F/T/L LINE RANGE 100 F/T/L

LINE snappy

• • • •

lampholder

• • • •

1x28 1x35 1x49 1x54

FDH FDH FDH FDH

G5 G5 G5 G5

• • • •

Light source LED Optical system Diffuser Light distribution Direct Wiring Electronic control gear Materials Housing: extruded aluminium Diffuser: opal polycarbonate Fixing accessories: zinc coated sheet steel Surface finish White (RAL 9003) Type

net lumen output (at Ta = 25 °C) (lm)

power consumption

4100 4100 4100 4100

LINE SNAPPY F/T/L LINE SNAPPY F/T/L LINE SNAPPY SINGLE PIECE LINE SNAPPY SINGLE PIECE

RELAX H LINE par-v2/par mat-v2

power (W)

lamp

OPAL

LINE RANGE 100 1x54W 90

90

75 60 45 30

• • • • • • • • • • • • • •

• • • • • • • • • • • • • •

45

30 C90.0-C270.0

75 60 45

cd/klm

30

thermal management

(W) 66 66 66 66

80 80 80 80

3000 4000 3000 4000

• • • •

• • • • • • • • • • • • • •

15

100 150 200 250 300

60

correlated color temperature CCT (K)

• • • • • • • • • • • • • •

15 0 C0.0-C180.0

90

75

15 0 C0.0-C180.0

15

30 C90.0-C270.0

PASSIVE

RELAX H LINE PAR-V2 1x28 W 90

90

75

power (W)

lamp

lampholder

1x14 1x24 1x28 1x54 1x35 1x49 1x80 2x14 2x24 2x28 2x54 2x35 2x49 2x80

FDH FDH FDH FDH FDH FDH FDH FDH FDH FDH FDH FDH FDH FDH

G5 G5 G5 G5 G5 G5 G5 G5 G5 G5 G5 G5 G5 G5

124/125

75

100 150 200 250 300

60 45

60 45

cd/klm

30

RELAX H/RELAX H LINE F/T/L RELAX H/RELAX H LINE F/T/L RELAX H/RELAX H LINE F/T/L RELAX H/RELAX H LINE F/T/L RELAX H/RELAX H LINE F/T/L RELAX H/RELAX H LINE F/T/L RELAX H/RELAX H LINE F/T/L RELAX H/RELAX H LINE F/T/L RELAX H/RELAX H LINE F/T/L RELAX H/RELAX H LINE F/T/L RELAX H/RELAX H LINE F/T/L RELAX H/RELAX H LINE F/T/L RELAX H/RELAX H LINE F/T/L RELAX H/RELAX H LINE F/T/L

45

cd/klm

90

color rendering index CRI (Ra)

optical system PAR-V2 PAR MAT-V2 OPAL MICROPRISMA

60

LINE SNAPPY LED 4100lm 4000K

Light source Linear fluorescent lamp FDH (T5) Optical system Parabolic louvre (PAR-V2/PAR MAT-V2), diffuser (OPAL/MICROPRISMA) Wiring Electronic control gear On request: dimmable electronic control gear (1-10V/switch DIM/DSI/DALI) Materials Housing: sheet steel Parabolic louvre: polished/mat aluminium Diffuser: opal/microprismatic polycarbonate Surface finish Powder coat finish – white (RAL 9003), other colors on request

Type

75

100 150 200 250 300

15 0 C0.0-C180.0

15

30 C90.0-C270.0

MODULAR SYSTEM relax line asymmetric led

RELAX LINE ASYMMETRIC LED 3550lm 4000K 90

90

75

75

60

60 450

45

Light source LED Optical system Asymmetric reflector Wiring Electronic control gear On request: dimmable electronic control gear DALI (10-100%) Materials Housing: sheet steel, reflector: polished aluminium Surface finish Housing: white (RAL 9003), other colors on request

45

600 cd/klm

30

15 0 C0.0-C180.0

15

30 C90.0-C270.0

Type

net lumen output (at Ta = 25 °C) (lm)

power consumption

3550 3550 3550

RELAX PV ASYM. LED F/T/L RELAX PV ASYM. LED F/T/l RELAX PV ASYM. LED F/T/L

LINE RANGE PB 100 led

LINE RANGE PB 100 led 4700lm 4000K 90

90

75

75 800

60

60

1200 45

45

1600 cd/klm

30

15 0 C0.0-C180.0

15

30 C90.0-C270.0

90

90 75

75 60

60

300 400

45

45

500 cd/klm

30

15 0 C0.0-C180.0

15

30 C90.0-C270.0

80 80 80

3000 4000 3000-6500

• • •

net lumen output (at Ta = 25 °C) (lm)

power consumption

4550 4700

LINE RANGE PB 100 LED F/T/L LINE RANGE PB 100 LED F/T/L

LINE RANGE PB 100

47 47 47

PASSIVE

Light source LED Optical system Reflector, diffuser Wiring Electronic control gear On request: dimmable electronic control gear DALI (10-100%)/touchDIM Materials Housing: sheet steel, reflector: aluminium Diffuser: opal PMMA Surface finish Housing: white (RAL 9003), reflector: white (RAL 9003) Other colors on request

Type

LINE RANGE PB 100 ASYMMETRIC 1x54 W

correlated color temperature CCT (K)

thermal management

(W)

color rendering index CRI (Ra)

correlated color temperature CCT (K)

thermal management

(W)

color rendering index CRI (Ra)

59 59

>80 >80

3000 4000

• •

Light source Linear fluorescent lamp FDH (T5) Optical system Parabolic louvre (PAR-V2/PAR MAT-V2), diffuser (OPAL/MICROPRISMA) Reflector (ASYMMETRIC) Wiring Electronic control gear On request: dimmable electronic control gear (1-10V/switch DIM/DSI/DALI) Materials Housing: sheet steel Asymmetric reflector: anodized aluminium Diffuser: opal/microprismatic polycarbonate Parabolic louvre: polished/matt aluminium Surface finish Housing: white (RAL 9003)

Type PAR-V2 LINE RANGE PB 100 F/T/L LINE RANGE PB 100 F/T/L LINE RANGE PB 100 F/T/L LINE RANGE PB 100 F/T/L LINE RANGE PB 100 F/T/L

• • • • •

optical system power par opal MICROPRISMA *asym. (W) mat-v2 • • • • •

• • • • •

• • • • •

• -

1x54 1x28 1x54 1x35 1x49

lamp

lampholder

FDH SEAMLESS FDH FDH FDH FDH

G5 G5 G5 G5 G5

* ASYMMETRIC

PAR-v2

PRODUCTS

PASSIVE

PAR MAT-V2

OPAL

ASYMMETRIC

CEILING SURFACED TUBUS VISION led

Light source LED Optical system Reflector Wiring Electronic control gear On request: dimmable electronic control gear DALI (10-100%) Materials Housing: polycarbonate Reflector: vacuum coated polycarbonate (polished/white) Decorative ring: sheet steel Surface finish Housing: upper part – white, bottom part – grey, other colors on request Decorative ring: red, other colors on request Type

TUBUS VISION LED TUBUS VISION LED TUBUS VISION LED TUBUS VISION LED

tubus cygnus

net lumen power output consumption (at Ta = 25 °C) (lm) (W) 1100 1100 2000 2000

color rendering index CRI (Ra)

correlated color temperature CCT (K)

thermal management

80 80 80 80

3000 4000 3000 4000

• • • •

15 13 28 26

TUBUS VISION LED 2000lm 3000K 90

90

75

75 200

60

60

300 45

45 cd/klm

30

15 0 C0.0-C180.0

15

30 C90.0-C270.0

beam angle

PASSIVE 97° 97° 97° 97°

Light source LED Optical system Diffuser Wiring Dimmable electronic control gear - thyristor dimming (5-100%) Materials Housing: extruded aluminium, diffuser: opal plast Surface finish Grey (RAL 9006), other colors on request

TUBUS CYGNUS LED 90° 1000lm 4000K 90

90

75

75 200

60

60

300

Type

TUBUS CYGNUS TUBUS CYGNUS TUBUS CYGNUS TUBUS CYGNUS

MODUL wings SUrfaced

net lumen power color output consumption rendering (at Ta = 25 °C) index (lm) (W) CRI (Ra) 700 700 1000 1000

thermal management

3000 4000 3000 4000

• • • •

>90 >90 >90 >90

beam angle

MODUL WINGS MODUL WINGS

optical system

power

PAR-Vm

PAR MAT-Vm

(W)

• •

• •

3x14 3x24

saiph as SAIPH AS

net lumen output (at Ta = 25 °C) (lm)

power consumption

3000 3000

45 cd/klm

30

15 0 C0.0-C180.0

15

30 C90.0-C270.0

90° 90° 90° 90°

lamp

lampholder

FDH FDH

G5 G5

Light source LED Optical system Diffuser Wiring Electronic control gear On request: dimmable electronic control gear DALI (10-100%)/ 1-10V (5-100%) Materials Housing: sheet steel Diffuser: opal plastic Surface finish Housing: white (RAL 9003) Type

45

PASSIVE

Light source Linear fluorescent lamp FDH (T5) Optical system Parabolic microlouvre (PAR-Vm/PAR MAT-Vm) Wiring Electronic control gear On request: dimmable electronic control gear (1-10V/DSI/ DALI/switch DIM) Materials Housing: polycarbonate + sheet steel, covers: sheet steel Parabolic microlouvre: anodized polished/mat aluminium Surface finish Housing: black (RAL 9005), white (RAL 9003) Other colors on request Type

saiph as

10 10 15 15

correlated color temperature CCT (K)

MODUL WINGS PAR-Vm 3x24W 90

90

75

75

100 150 200 250

60 45

60 45

cd/klm

30

15 0 C0.0-C180.0

15

30 C90.0-C270.0

SAIPH AS 3000lm 4000K 90

90

75

75

60

200

45

300

60 45

cd/klm

30

correlated color temperature CCT (K)

thermal management

(W)

color rendering index CRI (Ra)

34 34

90 90

3000 4000

• •

PASSIVE

126/127

15 0 C0.0-C180.0

15

30 C90.0-C270.0

CEILING SURFACED hellos as surfaced

HELLOS AS surfaced 4300lm 4000K 90

90 75

75 300

60

60

450 600

45

Light source Optical system Wiring Materials Surface finish

LED Reflector + refractor Electronic control gear Housing: sheet steel, reflector: vacuum coated plastic Refractor: etched PMMA Housing: white (RAL 9003)

45

750 cd/klm

30

15 0 C0.0-C180.0

15

30 C90.0-C270.0

Type

HELLOS AS

MODUL BOX SQUARE SURF. 4100lm 3000K 90

90

MODUL BOX SQUARE surfaced

75

75 200

60

60

300 400

45

45

net lumen power output consumption (at Ta = 25 °C) (lm) (W) 4300

color rendering index

thermal management

CRI (Ra)

correlated color temperature CCT (K)

80

4000

•

69

PASSIVE

Light source LED Optical system Diffuser Wiring Dimmable electronic control gear DALI (10-100%) Materials Housing: sheet steel, frame: extruded aluminium profile Diffuser: PMMA OPAL + PMMA diamond microprisma Surface finish Black (RAL9005), silver grey (RAL 9006) Other colors on request

cd/klm

30

15 0 C0.0-C180.0

15

30 C90.0-C270.0

Type

MODUL BOX SQUARE MODUL BOX SQUARE MODUL BOX SQUARE MODUL BOX SQUARE

modul box surfaced

modul box surfaced 1800lm 4000K 90

90 75

75 200

60

60

300 400

45

45

net lumen power output consumption (at Ta = 25 °C) (lm) (W) 950 950 4100 4100

color rendering index

thermal management

CRI (Ra)

correlated color temperature CCT (K)

>80 >80 >80 >80

3000 4000 3000 4000

• • • •

14 14 52 52

PASSIVE

Light source LED Optical system Diffuser Wiring Dimmable electronic control gear DALI (10-100%) Materials Housing: sheet steel, frame: extruded aluminium profile Diffuser: PMMA OPAL + PMMA diamond microprisma Surface finish Black (RAL9005), silver grey (RAL 9006) Other colors on request

cd/klm

30

15 0 C0.0-C180.0

15

30 C90.0-C270.0

Type

optical system DIFFUSER

modul box sus.

INDIRECT AS F-DUO 2x55W 90

90

75

75

60 120 160 200 240

60 45

indirect as f-duo microprisma

60 45

cd/klm

30

15 0 C0.0-C180.0

15

30 C90.0-C270.0

•

1800

35

>80

4000

•

Light source Linear fluorescent lamp FDH (T5) Compact fluorescent lamp FSDH (TC-L) Optical system Backside diffuse reflector, microprismatic diffuser (F-S) 2 Microprismatic diffusers (F-DUO) Wiring Electronic control gear On request: dimmable electronic control gear (1-10V/switch DIM/DSI/DALI) Materials Housing: sheet steel, backside diffuse reflector: sheet steel Microprismatic diffuser: polycarbonate Surface finish Powder coat finish – white (RAL 9003), other colors on request

Type

INDIRECT AS F-DUO INDIRECT AS F-DUO INDIRECT AS F-DUO INDIRECT AS F-DUO INDIRECT AS F-DUO INDIRECT AS F-DUO INDIRECT AS F-DUO

PRODUCTS

net lumen power color correlated thermal output consumption rendering color management (at Ta = 25 °C) index temperature (lm) (W) CRI (Ra) CCT (K) PASSIVE

optical system

power

DIFFUSER

(W)

• • • • • • •

2x14 2x24 2x28 2x54 4x14 2x40 2x55

lamp

lampholder

FDH FDH FDH FDH FDH FSDH FSDH

G5 G5 G5 G5 G5 2G11 2G11

CEILING SURFACED CLASSIC ASN

Light source Linear fluorescent lamp FDH (T5) Optical system Parabolic louvre (PAR-V2/PAR MAT-V2) Wiring Electronic control gear On request: dimmable electronic control gear 1-10V/switch DIM/DSI/DALI) Materials Housing: sheet steel Parabolic louvre: polished/mat aluminium Surface finish Powder coat finish – white (RAL 9003), other colors on request

CLASSIC ASN PAR-V2 4x14W 90

90

75

75 200

60

60

300 45

45 cd/klm

30

Type

CLASSIC ASN CLASSIC ASN CLASSIC ASN CLASSIC ASN CLASSIC ASN CLASSIC ASN CLASSIC ASN CLASSIC ASN CLASSIC ASN CLASSIC ASN CLASSIC ASN CLASSIC ASN CLASSIC ASN CLASSIC ASN CLASSIC ASN CLASSIC ASN

CLASSIC ASN A1/A2/A3/A4/A5/A9

optical system PAR-V2

PAR MAT-V2

(W)

• • • • • • • • • • • • • • • •

• • • • • • • • • • • • • • • •

1x14 1x24 1x28 1x35 1x49 1x54 1x80 2x14 2x24 2x28 2x35 2x49 2x54 2x80 4x14 4x24

lamp

lampholder

FDH FDH FDH FDH FDH FDH FDH FDH FDH FDH FDH FDH FDH FDH FDH FDH

G5 G5 G5 G5 G5 G5 G5 G5 G5 G5 G5 G5 G5 G5 G5 G5

Light source Linear fluorescent lamp FDH Optical system Parabolic louvre (PAR-V2/PAR MAT-V2) Wiring Electronic control gear On request: dimmable electronic control gear (1-10V/switch DIM/DSI/DALI) Materials Housing: sheet steel Parabolic louvre: polished/mat aluminium Surface finish Powder coat finish – white (RAL 9003), other colors on request Bottom sheet: solid (DECOR L1)/perforated (DECOR L2)

Type

optical system

power

PAR-V2

PAR MAT-V2

(W)

• • • • • • • • • • • •

• • • • • • • • • • • •

4x14 4x24 3x14 3x24 4x14 4x24 4x14 4x24 4x14 4x24 3x14 3x24

CLASSIC ASN A1 CLASSIC ASN A1 CLASSIC ASN A2 CLASSIC ASN A2 CLASSIC ASN A3 CLASSIC ASN A3 CLASSIC ASN A4 CLASSIC ASN A4 CLASSIC ASN A5 CLASSIC ASN A5 CLASSIC ASN A9 CLASSIC ASN A9

modul ark

power

lamp

lampholder

FDH FDH FDH FDH FDH FDH FDH FDH FDH FDH FDH FDH

G5 G5 G5 G5 G5 G5 G5 G5 G5 G5 G5 G5

Light source LED Optical system Parabolic louvre (PAR-L) Wiring Electronic control gear Materials Housing: sheet steel Parabolic louvre: polished aluminium Surface finish Grey (RAL 9006) Other colors on request

15 0 C0.0-C180.0

15

30 C90.0-C270.0

CLASSIC ASN PAR-V2 A1 3x14W 90

90

75

75 200

60

60

300 45

45 cd/klm

30

15 0 C0.0-C180.0

15

30 C90.0-C270.0

modul ark 1150lm 4000K 90

90

75

75

200 300 400 500

60 45

60 45

cd/klm

30

Type

modul ark

optical system

power consumption

PAR-L

net lumen output (at Ta = 25 °C) (lm)

(W)

color rendering index CRI (Ra)

•

1150

16

80

correlated thermal color management temperature CCT (K) PASSIVE 4000

•

128/129

15 0 C0.0-C180.0

15

30 C90.0-C270.0

CEILING SURFACED MODUL quark II

MODUL QUARK PRISMA CDP 4x28W 90

90

75

75 80

60

60

120 160

45

45

200 cd/klm

30

15 0 C0.0-C180.0

15

30 C90.0-C270.0

Light source Linear fluorescent lamp FDH (T5) Optical system Diffuser (MICROPRISMA CDP/CDP DIF) Wiring Electronic control gear On request: dimmable electronic control gear (1-10V/switch DIM/DSI/DALI) Materials Housing: sheet steel, extruded aluminium Diffuser: polycarbonate with microprismatic finish CDP (version with opal foil – CDP DIF) Surface finish Housing: grey (RAL 9006), other colors on request Type

MODUL QUARK II MODUL QUARK II MODUL QUARK II MODUL QUARK II MODUL QUARK II MODUL QUARK II MODUL QUARK II MODUL QUARK II

MODUL BOX MAX DIR 4200lm 4000K 90

90

75

modul box max DIR

75 200

60

60

300 45

45

400 cd/klm

30

15 0 C0.0-C180.0

15

30 C90.0-C270.0

90

75

75

60

60 45

30 15 0 C0.0-C180.0

15

120

lampholder

2x28 2x35 2x49 2x54 2x80 4x28 4x35 4x49

FDH FDH FDH FDH FDH FDH FDH FDH

G5 G5 G5 G5 G5 G5 G5 G5

• • • • • • • •

MODUL BOX MAX DIR MODUL BOX MAX DIR

4200 4200

color rendering index CRI (Ra)

correlated color temperature CCT (K)

thermal management

80 80

3000 4000

• •

52 52

PASSIVE

30 45 C90.0-C270.0

modul lambda

modul lambda 1x54W 120

200 150 100

105

lamp

net lumen power output consumption (at Ta = 25 °C) (lm) (W)

105

90

power (W)

Light source LED Optical system Diffuser Wiring Dimmable electronic control gear DALI (10-100%) Materials Housing: sheet steel, frame: extruded aluminium profile Diffuser DIR: PMMA OPAL+ PMMA diamond microprisma Diffuser INDIR: PMMA linear microprisma Surface finish Black (RAL9005), silver grey (RAL 9006) Other colors on request

120

300 200

105

• • • • • • • •

Type

MODUL BOX MAX DIR-INDIR 73 W 4000 K 120

optical system CDP CDP DIF

105

90

90

75

75

60

Light source Linear fluorescent lamp FDH Optical system Parabolic louvre (PAR-V2/PAR MAT-V2) Wiring Electronic control gear On request: dimmable electronic control gear (1-10V/DSI/DALI/switch DIM) Materials Housing: sheet steel, parabolic louvre: polished/mat aluminium Surface finish Housing: grey (RAL 9006), other colors on request

60 cd/klm

45

30 15 0 C0.0-C180.0

15

30 45 C90.0-C270.0

Type

MODUL LAMBDA MODUL LAMBDA MODUL LAMBDA MODUL LAMBDA MODUL LAMBDA

modul lambda max

modul lambda 2x54W 120

120

200 150 100

105

105

90

90

75

75

60

optical system PAR-V2 PAR mAT-V2 • • • • •

power (W)

lamp

lampholder

1x28 1x35 1x49 1x54 1x80

FDH FDH FDH FDH FDH

G5 G5 G5 G5 G5

• • • • •

Light source Linear fluorescent lamp FDH Optical system Parabolic louvre (PAR-V2/PAR MAT-V2) Wiring Electronic control gear On request: dimmable electronic control gear (1-10V/switch DIM/DSI/DALI) Materials Housing: sheet steel, parabolic louvre: polished/mat aluminium Surface finish Housing: grey (RAL 9006), other colors on request

60 cd/klm

45

30 15 0 C0.0-C180.0

15

30 45 C90.0-C270.0

Type

MODUL LAMBDA MAX MODUL LAMBDA MAX MODUL LAMBDA MAX MODUL LAMBDA MAX MODUL LAMBDA MAX

PRODUCTS

optical system PAR-V2 PAR MAT-V2 • • • • •

• • • • •

power (W)

lamp

lampholder

2x28 2x35 2x49 2x54 2x80

FDH FDH FDH FDH FDH

G5 G5 G5 G5 G5

CEILING SURFACED modul exe II

Light source Linear fluorescent lamp FDH (T5) Optical system Parabolic louvre (PAR-V2/PAR-V MAT-V2) Wiring Electronic control gear On request: dimmable electronic control gear (1-10V/switch DIM/DSI/DALI) Materials Housing: sheet steel, parabolic louvre: polished/mat aluminium Surface finish White (RAL 9003), other colors on request

modul exe II DIR 1x35W 90

90

75

75

60

200

45

300

60 45

cd/klm

30

Type

MODUL EXE II MODUL EXE II MODUL EXE II MODUL EXE II MODUL EXE II MODUL EXE II MODUL EXE II MODUL EXE II MODUL EXE II MODUL EXE II

line range 100 led surfaced single PIECE

optical system PAR-V2 PAR MAT -V2 • • • • • • • • • •

power (W)

lamp

lampholder

1x28 1x54 1x35 1x49 1x80 2x28 2x54 2x35 2x49 2x80

FDH FDH FDH FDH FDH FDH FDH FDH FDH FDH

G5 G5 G5 G5 G5 G5 G5 G5 G5 G5

• • • • • • • • • •

Light source LED Optical system Reflector, diffuser Wiring Electronic control gear On request: dimmable electronic control gear DALI (10-100%)/touchDIM Materials Housing: sheet steel, reflector: aluminium Diffuser: opal PMMA, end caps: sheet steel Surface finish Housing: white (RAL 9003), reflector: white (RAL 9003) other colors on request net lumen output (at Ta = 25 °C) (lm)

power consumption

4450 4700

LINE RANGE 100 LED SINGLE PIECE LINE RANGE 100 LED SINGLE PIECE

MODUL ray surfaced

correlated color temperature CCT (K)

thermal management

(W)

color rendering index CRI (Ra)

59 59

>80 >80

3000 4000

• •

optical system PAR-Vm

• MODUL RAY MODUL RAY • MODUL RAY • MODUL RAY • MODUL RAY • MODUL RAY • MODUL RAY • MODUL RAY • MODUL RAY • MODUL RAY • MODUL RAY • MODUL RAY • MODUL RAY • MODUL RAY • MODUL RAY • MODUL RAY • MODUL RAY • MODUL RAY • MODUL RAY • MODUL RAY • MODUL RAY • * Blue LED ambient lighting on request

power

PAR MAT-Vm

(W)

• • • • • • • • • • • • • • • • • • • • •

1x14* 1x24* 1x28* 1x35* 1x49* 1x54* 1x80* 2x14 2x24 2x28 2x35 2x49 2x54 2x80 3x14 3x24 3x28 3x35 3x49 3x54 3x80

30 C90.0-C270.0

90

90

75

75 800

60

60

1200 45

45

1600 cd/klm

15 0 C0.0-C180.0

15

30 C90.0-C270.0

PASSIVE

Light source Linear fluorescent lamp FDH (T5) LED strips Optical system Parabolic microlouvre (PAR-Vm/PAR MAT-Vm) Diffuser Wiring Electronic control gear On request: dimmable electronic control gear (1-10V/switch DIM/DSI/DALI) Materials Housing: extruded aluminium Microlouvre: anodized polished/mat aluminium Diffuser: polycarbonate Housing end caps: polycarbonate Holder: sheet steel Surface finish Housing: white (RAL 9003), grey (RAL 9006), black (RAL 9005)

Type

15

LINE RANGE 100 suspended SINGLE PIECE 4700lm 4000K

30

Type

15 0 C0.0-C180.0

lamp

lampholder

FDH FDH FDH FDH FDH FDH FDH FDH FDH FDH FDH FDH FDH FDH FDH FDH FDH FDH FDH FDH FDH

G5 G5 G5 G5 G5 G5 G5 G5 G5 G5 G5 G5 G5 G5 G5 G5 G5 G5 G5 G5 G5

130/131

MODUL RAY DIR-INDIR PAR-Vm 2x28W 120

120

160 120 80

105

105

90

90

75

75

60

60 cd/klm

45

30 15 0 C0.0-C180.0

15

30 45 C90.0-C270.0

CEILING SURFACED tornado pc led

TORNADO PC LED 5100lm 4000K 120

120

200 160 120 80

105

105

90

90

75

75

60

60

cd/klm

45

30 15 0 C0.0-C180.0

15

30 45 C90.0-C270.0

Light source LED Optical system Diffuser Wiring Electronic control gear On request: dimmable electronic control gear DALI (10-100%)/1-10V Through-wiring Materials Housing: injected polycarbonate (grey) Diffuser: injected polycarbonate (clear) Clips: polycarbonate or stainless steel (inox) Installation plate: sheet steel Surface finish Housing: grey

Type

net lumen output (at Ta = 25 °C) (lm)

power consumption

5100

TORNADO PC LED

tornado pc

TORNADO PC 1x54W 120

120

200 160 120 80

105

105

90

90

75

75

60

60

cd/klm

45

30 15 0 C0.0-C180.0

15

30 45 C90.0-C270.0

51

80

4000

•

PASSIVE

Light source Linear fluorescent lamp FDH (T5) Linear fluorescent lamp FD (T8) Optical system Diffuser Additional top reflector (version REF) on request (symmetrical or asymmetrical) Wiring Electronic control gear On request: dimmable electronic control gear (1-10V/switch DIM/DSI/DALI) Materials Housing: inject polycarbonate, grey Diffuser: inject polycarbonate, clear Clips: polycarbonate or stainless steel (inox) Installation plate: metal sheet Surface finish Housing: grey Instalation plate: white (RAL 9003)

Type

TORNADO PC TORNADO PC ** TORNADO PC TORNADO PC ** TORNADO PC TORNADO PC ** TORNADO PC TORNADO PC TORNADO PC TORNADO PC TORNADO PC TORNADO PC TORNADO PC TORNADO PC TORNADO PC TORNADO PC TORNADO PC TORNADO PC TORNADO PC * TORNADO PC TORNADO PC* TORNADO PC TORNADO PC TORNADO PC TORNADO PC TORNADO PC TORNADO PC TORNADO PC TORNADO PC TORNADO PC TORNADO PC TORNADO PC

optical system dif REF • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • * dimensions 1x

PRODUCTS

correlated color temperature CCT (K)

thermal management

(W)

color rendering index CRI (Ra)

• • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • ** dimensions 2x

power

lamp

lampholder

1x14 1x14 1x18 1x18 1x24 1x24 1x28 1x35 1x36 1x49 1x54 1x58 1x70 1x80 2x14 2x18 2x24 2x28 2x28 2x35 2x35 2x36 2x49 2x54 2x58 2x70 2x80 3x14 3x24 3x28 3x35 3x36

FDH FDH FD FD FDH FDH FDH FDH FD FDH FDH FD FD FDH FDH FD FDH FDH FDH FDH FD FD FDH FDH FD FD FDH FDH FDH FDH FDH FD

G5 G5 G13 G13 G5 G5 G5 G5 G13 G5 G5 G13 G13 G5 G5 G13 G5 G5 G5 G5 G13 G13 G5 G5 G13 G13 G5 G5 G5 G5 G5 G13

ceiling recessed Recessed luminaires suitable for fitting into plasterboard ceilings. Its design does not interfere with the atmosphere of the room. These luminaires can find their utilization in applications with low ceilings. Into this group belongs luminaires of type downlights, adjustable downlights and then luminaires which are designed

mainly for the Office lighting (600x600), but they also find their application in lighting for retail areas. Luminaires can be fitted with several types of light sources. From the most efficient LED through metal - halide lamps to fluorescent lamps. According to the type of luminaire

downlight The Downlight luminaires offer a wide variability of use and and dimming of the luminaire. The LED chip can replace 35 W metal halide a wide range of versions. They are used especially for lighting food, corlamp, against which it has significantly lower power consumption and longer ridors, halls and service areas of the hypermarket. We can mention some of lifetime (LED – 50 000 h, discharge lamp – 15 000 h), their advantages: • choice of the light color – warm white light is suitable for illuminating fruits, • a possibility to use an opal cover which prevents glare. This option is useful vegetables and pastries, neutral white light color can highlight textiles, dairy for illuminating glossy products (e.g. bread wrapped in cellophane and other products and fish, products packed in shiny foils), • choice of various decorative elements to create a pleasant atmosphere of the prem• when using an LED chip, it is possible to control the luminous flux simply ises, by an addressable ballast through the DALI protocol, and thus on/off switch • quality optical parts to reduce direct glare to a minimum, • choice of different color filters, • low power consumption

downlight CASTRA

Light source LED Wiring Electronic control gear On request: DALI (5-100%) Materials Housing: polycarbonate, reflector: anodished polished aluminium Trim: sheet steel, plasterboard trim: aluminium profile Holders: zinc coated sheet steel Surface finish Ring, plasterboard ring: white (RAL 9003), other colors on request

DOWNLIGHT CASTRA LED 60° 2650lm 4000 K 90

90

75

75 400

60

60

600 45

45

800 cd/klm

30

Type

DOWNLIGHT CASTRA DOWNLIGHT CASTRA DOWNLIGHT CASTRA DOWNLIGHT CASTRA DOWNLIGHT CASTRA DOWNLIGHT CASTRA DOWNLIGHT CASTRA DOWNLIGHT CASTRA

DOWNLIGHT CASTOR

net lumen output (at Ta = 25 °C) (lm)

power consumption

correlated color temperature CCT (K)

thermal management

(W)

color rendering index CRI (Ra)

650 650 900 900 1800 1800 2650 2650

10 10 15 15 27 27 37 37

>90 >90 >90 >90 >90 >90 >90 >90

3000 4000 3000 4000 3000 4000 3000 4000

• • • • • • • •

15 0 C0.0-C180.0

15

30 C90.0-C270.0

beam angle

PASSIVE 60°/74° 60°/74° 60°/74° 60°/74° 60°/74° 60°/74° 60°/74° 60°/74°

Light source LED Optical system Reflector Wiring Electronic control gear On request: DALI (5-100%) Materials Housing: polycarbonate, reflector: anodished polished aluminium Trim: sheet steel, holders: zinc coated sheet steel Surface finish Trim: white (RAL 9003), other colors on request

DOWNLIGHT CASTOR LED 60° 2650lm 4000K 90

90

75

75 400

60

60

600 45

45

800 cd/klm

30

Type

DOWNLIGHT CASTOR DOWNLIGHT CASTOR DOWNLIGHT CASTOR DOWNLIGHT CASTOR DOWNLIGHT CASTOR DOWNLIGHT CASTOR DOWNLIGHT CASTOR DOWNLIGHT CASTOR

net lumen output (at Ta = 25 °C) (lm) 650 650 900 900 1800 1800 2650 2650

power color consumption rendering index (W) CRI (Ra) 10 10 15 15 27 27 37 37

>90 >90 >90 >90 >90 >90 >90 >90

correlated color temperature CCT (K)

thermal management

3000 4000 3000 4000 3000 4000 3000 4000

• • • • • • • •

beam angle

PASSIVE 60°/74° 60°/74° 60°/74° 60°/74° 60°/74° 60°/74° 60°/74° 60°/74°

132/133

15 0 C0.0-C180.0

15

30 C90.0-C270.0

ceiling recessed DOWNLIGHT cygnus II

DOWNLIGHT CYGNUS LED 90° 1100lm 4000K 90

90 75

75 60

60

200 300

45

Light source Optical system Wiring Materials Surface finish

LED Diffuser Dimmable electronic control gear - thyristor dimmer (5-100%) Housing: sheet steel, diffuser: opal plast Trim: sheet steel, holders: zinc coated sheet steel Ring: white (RAL 9003), other colors on request

45

cd/klm

30

15 0 C0.0-C180.0

15

30 C90.0-C270.0

Type

net lumen output (at Ta = 25 °C) (lm)

DOWNLIGHT CYGNUS DOWNLIGHT CYGNUS DOWNLIGHT CYGNUS DOWNLIGHT CYGNUS

DOWNLIGHT caim

DOWNLIGHT CAIM 62° 2350lm 3000K 90

90 75

75 400

60

60

600 800

45

Light source Optical system Wiring Materials Surface finish

power color consumption rendering index (W) CRI (Ra)

700 700 1100 1100

10 10 15 15

correlated color temperature CCT (K)

thermal management

3000 4000 3000 4000

• • • •

>90 >90 >90 >90

beam angle

PASSIVE 90° 90° 90° 90°

LED Reflector Dimmable electronic control gear, thyristor dimmer (5-100%) / 1-10V Housing: aluminium, ring: sheet steel Reflector: anodized polished aluminium, holders: zinc coated sheet steel Trim: white (RAL9003), other colors on request

45

cd/klm

30

15 0 C0.0-C180.0

15

30 C90.0-C270.0

Type

net lumen power output consumption (at Ta = 25 °C) (lm) (W)

DOWNLIGHT CAIM DOWNLIGHT CAIM DOWNLIGHT CAIM DOWNLIGHT CAIM

DOWNLIGHT CAIM TRIMLESS 62° 2350lm 3000K 90

DOWNLIGHT caim trimless

90

75

75 400

60

60

600 45

45

800

Light source Optical system Wiring Materials Surface finish

1800 1800 2350 2350

24 24 32 32

color rendering index CRI (Ra)

correlated color temperature CCT (K)

thermal management

>90 >90 >90 >90

3000 4000 3000 4000

• • • •

beam angle

PASSIVE 62° 62° 62° 62°

LED Reflector Dimmable electronic control gear Thyristor dimmer (5-100%) /1-10V Housing: aluminium, ring: sheet steel, reflector: anodized polished aluminium Plasterboard ring: aluminium profile, holders: zinc coated sheet steel Ring, plasterboard ring: white (RAL 9003), other colors on request

cd/klm

30

15 0 C0.0-C180.0

15

30 C90.0-C270.0

Type

net lumen output (at Ta = 25 °C) (lm)

DOWNLIGHT CAIM TRIMLESS DOWNLIGHT CAIM TRIMLESS DOWNLIGHT CAIM TRIMLESS DOWNLIGHT CAIM TRIMLESS

DOWNLIGHT noviel

DOWNLIGHT NOVIEL 88° 2300lm 3000K 90

90

75

75 200

60

60

300 45

45

400

power color consumption rendering index (W) CRI (Ra)

1800 1800 2350 2350

24 24 32 32

>90 >90 >90 >90

correlated thermal color management temperature CCT (K) PASSIVE 3000 4000 3000 4000

• • • •

beam angle

62° 62° 62° 62°

Light source LED Optical system Reflector, diffuser Wiring Electronic control gear On request: dimmable electronic control gear DALI (10-100%) Materials Housing: sheet steel, trim: sheet steel, reflector: anodized polished aluminium Diffuser: PMMA diamond microprisma Surface finish Trim: white (RAL9003), other colors on request

cd/klm

30

15 0 C0.0-C180.0

15

30 C90.0-C270.0

Type

DOWNLIGHT NOVIEL DOWNLIGHT NOVIEL

PRODUCTS

net lumen output (at Ta = 25 °C) (lm)

power consumption

correlated color temperature CCT (K)

thermal management

(W)

color rendering index CRI (Ra)

2100 2300

25 25

80 80

3000 4000

• •

beam angle

PASSIVE 88° 88°

ceiling recessed DOWNLIGHT PREPUS

Light source Optical system Wiring Materials Surface finish

LED DIffuser, reflector Dimmable electronic control gear DALI (10-100%) / touch DIM Housing: sheet steel, reflector: polished anodized aluminium Diffuser: microprismatic PMMA, trim: sheet steel Housing: white (RAL9003), trim: white (RAL9003), other colors on request

DOWNLIGHT PRePUS LED 74° 3200lm 3000K 90

90

75 60 45 cd/klm

30

Type

net lumen output (at Ta = 25 °C) (lm)

power consumption (W)

color rendering index CRI (Ra)

1000 1100 1900 2000 3000 3200

18 18 31 31 53 53

80 80 80 80 80 80

DOWNLIGHT PREPUS DOWNLIGHT PREPUS DOWNLIGHT PREPUS DOWNLIGHT PREPUS DOWNLIGHT PREPUS DOWNLIGHT PREPUS

DOWNLIGHT MIRA

Light source Optical system Wiring Materials Surface finish

correlated thermal color management temperature CCT (K) PASSIVE 3000 4000 3000 4000 3000 4000

• • • • • •

75

200 300 400 500 600

beam angle

15 0 C0.0-C180.0

60 45 15

30 C90.0-C270.0

74° 74° 74° 74° 74° 74°

LED Reflector + refractor Electronic control gear Ring:sheet steel, housing: die cast aluminium, reflector: vacuum coated plastic Refractor: etched PMMA, holders: zinc coated sheet steel Trim: white (RAL 9003), other colors on request

DOWNLIGHT MIRA 67° 2600lm 4000K 90

90 75

75 300

60

60

450 600

45

45

750 cd/klm

30

Type

net lumen output (at Ta = 25 °C) (lm)

DOWNLIGHT MIRA

DOWNLIGHT PROPUS

Light source Optical system Wiring Materials Surface finish

2600

power color consumption rendering index (W) CRI (Ra) 43

correlated color temperature CCT (K)

thermal management

4000

•

>80

beam angle

15 0 C0.0-C180.0

15

30 C90.0-C270.0

PASSIVE 67°

LED Reflector Electronic control gear, on request: dimmable electronic control gear DALI (10-100%) Housing: sheet steel, reflector: anodized aluminium Trim: sheet steel, holders: zinc coated sheet steel Trim: white (RAL 9003), other colors on request

DOWNLIGHT PROPUS LED 71° 3000lm 3000K 90

90 75

75 60

60

400 600

45

45

cd/klm

30

Type

net lumen output (at Ta = 25 °C) (lm)

power consumption (W)

color rendering index CRI (Ra)

1100 1100 2000 2000 3000 3000

15 13 28 26 50 46

80 80 80 80 80 80

DOWNLIGHT PROPUS DOWNLIGHT PROPUS DOWNLIGHT PROPUS DOWNLIGHT PROPUS DOWNLIGHT PROPUS DOWNLIGHT PROPUS

DOWNLIGHT VISION LED

correlated thermal color management temperature CCT (K) PASSIVE 3000 4000 3000 4000 3000 4000

• • • • • •

beam angle

15 0 C0.0-C180.0

15

30 C90.0-C270.0

71° 71° 71° 71° 71° 71°

Light source LED Optical system Reflector Wiring Electronic control gear, on request: dimmable electronic control gear DALI/DMX Materials Housing: cover - PBT, inst. plate - zinc coated sheet Reflector: polycarbonate - evaporative coating (polished/white) Surface finish Trim: white (RAL9003), other colors on request

DOWNLIGHT VISION POLISHED 99° 3000lm 4000K 90

90

75

75

400 600 800 1000 1200

60 45

60 45

cd/klm

Type

DOWNLIGHT VISION 190 LED DOWNLIGHT VISION 190 LED DOWNLIGHT VISION 190 LED DOWNLIGHT VISION 190 LED DOWNLIGHT VISION 190 LED DOWNLIGHT VISION 190 LED DOWNLIGHT VISION 190 LED DOWNLIGHT VISION 190 LED

net lumen power color output consumption rendering (at Ta = 25 °C) index (lm) (W) CRI (Ra) 900 1800 1100 1100 2000 2000 3000 3000

40 50 15 13 28 26 50 46

80 80 80 80 80 80 80 80

correlated thermal color management temperature CCT (K) PASSIVE 2700-6500+RGB 2700-6500+RGB 3000 4000 3000 4000 3000 4000

– – • • • • • •

30

beam angle

99° 99° 99° 99° 99° 99° 99° 99°

134/135

15 0 C0.0-C180.0

15

30 C90.0-C270.0

DOWNLIGHT VISION WHITE 99° 3000lm 4000K 90

90

75

75 200

60

60

300

45

45 cd/klm

30

15 0 C0.0-C180.0

15

30 C90.0-C270.0

ceiling recessed DOWNLIGHT VISION ECO

DOWNLIGHT VISION ECO FSM6H 1x14 W 90

90

75

75

60

60

Light source Compact fluorescent lamp FSM6H (PL-R ECO) / FSQ (TC-DEL) Optical system Reflector Wiring Electronic control gear On request: dimmable electronic control gear (1-10V/DALI) Materials Housing: cover – PBT, inst. plate – zinc coated sheet Reflector: polycarbonate – evaporative coating (polished/white)

45

45

Type

cd/klm

30

15 0 C0.0-C180.0

15

30 C90.0-C270.0

optical system polished white

Downlight VISON ECO 170 Downlight VISON ECO 170 Downlight VISON ECO 170 Downlight VISON ECO 170 Downlight VISON ECO 190 Downlight VISON ECO 190 Downlight VISON ECO 190 Downlight VISON ECO 190

DOWNLIGHT VISION 170 WHITE FSM6H 1x14 W

DOWNLIGHT VISION

90

90

75

75

60

60

• • • • • • • •

• • • • • • • •

power (W)

lamp

lampholder

1x14 1x17 1x18 1x26 2x14 2x17 2x18 2x26

FSM6H FSM6H FSQ FSQ FSM6H FSM6H FSQ FSQ

GR14q-1 GR14q-1 G24q-2 G24q-3 GR14q-1 GR14q-1 G24q-2 G24q-3

Light source Compact fluorescent lamp FSM6H (PL-R ECO) / FSQ (TC-DEL) / FSMH (TC-TEL) Optical system Reflector Wiring Electronic control gear On request: dimmable electronic control gear (1-10V/DALI) Materials Housing: cover – PBT, inst. plate – zinc coated sheet Reflector: polycarbonate – evaporative coating (polished/white)

45

45 cd/klm

30

15 0 C0.0-C180.0

15

30 C90.0-C270.0

Type

optical system polished white

Downlight VISON 190 Downlight VISON 190 Downlight VISON 190 Downlight VISON 240 Downlight VISON 240

downlight poluks

DOWNLIGHT POLUKS LED 58° 2600lm 3000K 90

90 75

75 400

60

60

600 800

45 cd/klm

30

15 0 C0.0-C180.0

15

• • • • •

lamp

lampholder

1x17 1x26 1x32 1x42 1x57

FSM6H FSQ FSMH FSMH FSMH

GR14q-1 G24q-3 GX24q-3 GX24q-4 GX24q-5

An aesthetic architectural LED downlight, intended mainly for premises used for retail, is a built-in model capable of being a stylish interior component. Its original design of rotating lines gives a frame to a high light flux of CRI>80. The current technologies allow perfect control and creation of unique and dynamic environment and flexible light scenes. Light source LED Optical system Reflector Wiring Electronic control gear On request: dimmable electronic control gear DALI (10-100%) Materials Housing: zinc coated sheet steel, reflector: anodized aluminium Trim 1: sheet steel, trim 2: sheet steel Surface finish Grey (RAL 9006, RAL 9007)

45

1000

• • • • •

power (W)

30 C90.0-C270.0

Type

DOWNLIGHT poluks DOWNLIGHT poluks DOWNLIGHT poluks DOWNLIGHT poluks DOWNLIGHT poluks DOWNLIGHT poluks DOWNLIGHT poluks DOWNLIGHT poluks

PRODUCTS

net lumen power output consumption (at Ta = 25 °C) (lm) (W) 700 1600 950 950 1700 1700 2600 2600

40 50 15 13 28 26 50 46

color rendering index CRI (Ra)

correlated color temperature CCT (K)

thermal management

80 80 80 80 80 80 80 80

2700 - 6500 + RGB 2700 - 6500 + RGB 3000 4000 3000 4000 3000 4000

– – • • • • • •

beam angle

PASSIVE 58° 58° 58° 58° 58° 58° 58° 58°

ceiling recessed downlight SQUARE

Light source LED Wiring Electronic control gear On request: dimmable electronic control gear DALI (10-100%) Materials Housing: sheet steel, reflector: polished anodized aluminium Trim: sheet steel + MIRO5 aluminium, frame: aluminium profile Surface finish Housing: white (RAL9003), trim: white (RAL9003), other colors on request

DOWNLIGHT SQUARE 80° 2950lm 4000K 90

90

75

75 300

60

60

450 45

Type

DOWNLIGHT SQUARE DOWNLIGHT SQUARE DOWNLIGHT SQUARE DOWNLIGHT SQUARE DOWNLIGHT SQUARE DOWNLIGHT SQUARE

downlight SQUARE TRIMLESS

net lumen output (at Ta = 25 °C) (lm)

power consumption

correlated color temperature CCT (K)

thermal management

(W)

color rendering index CRI (Ra)

1050 1050 1950 1950 2950 2950

15 13 28 26 50 46

80 80 80 80 80 80

3000 4000 3000 4000 3000 4000

• • • • • •

45

600 cd/klm

beam angle

30

15 0 C0.0-C180.0

15

30 C90.0-C270.0

PASSIVE 80° 80° 80° 80° 80° 80°

Light source LED Wiring Electronic control gear On request: dimmable electronic control gear DALI (10-100%) Materials Housing: sheet steel, reflector: polished anodized aluminium Trim: sheet steel + MIRO5 aluminium, frame: aluminium profile Surface finish Housing: white (RAL9003), trim: white (RAL9003), other colors on request

DOWNLIGHT SQUARE TRIMLESS 80° 2950lm 4000K 90

90

75

75 300

60

60

450 45

Type

DOWNLIGHT SQUARE DOWNLIGHT SQUARE DOWNLIGHT SQUARE DOWNLIGHT SQUARE DOWNLIGHT SQUARE DOWNLIGHT SQUARE

downlight QUADRO

Light source Wiring Materials Surface finish

net lumen output (at Ta = 25 °C) (lm)

power consumption (W)

color rendering index CRI (Ra)

1050 1050 1950 1950 2950 2950

15 13 28 26 50 46

80 80 80 80 80 80

correlated thermal color management temperature CCT (K) PASSIVE 3000 4000 3000 4000 3000 4000

• • • • • •

cd/klm

beam angle

30

15 0 C0.0-C180.0

LED Dimmable electronic control gear DALI (10-100%)/switch DIM Housing: sheet steel, reflector: polished anodized aluminium Diffuser: PMMA diamond microprisma, trim: sheet steel Housing: white (RAL9003), trim: white (RAL9003), other colors on request

DOWNLIGHT QUADRO DOWNLIGHT QUADRO DOWNLIGHT QUADRO DOWNLIGHT QUADRO DOWNLIGHT QUADRO DOWNLIGHT QUADRO

downlight CUBE

net lumen output (at Ta = 25 °C) (lm)

power consumption (W)

color rendering index CRI (Ra)

1100 1200 2100 2300 3400 3600

18 18 31 31 53 53

83 83 83 83 83 83

correlated thermal color management temperature CCT (K) PASSIVE 3000 4000 3000 4000 3000 4000

• • • • • •

beam angle

DOWNLIGHT QUADRO 74° 3600lm 4000K 90 75

75 300

DOWNLIGHT CUBE DOWNLIGHT CUBE DOWNLIGHT CUBE DOWNLIGHT CUBE DOWNLIGHT CUBE DOWNLIGHT CUBE

power consumption (W)

color rendering index CRI (Ra)

1000 1100 1900 2000 3000 3200

18 18 31 31 53 53

83 83 83 83 83 83

600

45

• • • • • •

45

750 cd/klm

15 0 C0.0-C180.0

15

30 C90.0-C270.0

74° 74° 74° 74° 74° 74°

correlated thermal color management temperature CCT (K) PASSIVE 3000 4000 3000 4000 3000 4000

60

450

DOWNLIGHT CUBE 74° 3200lm 4000K 90

90

75

beam angle

74° 74° 74° 74° 74° 74°

136/137

75

200 300 400 500

60 45

net lumen output (at Ta = 25 °C) (lm)

30 C90.0-C270.0

90

30

Light source LED Wiring Electronic control gear On request: dimmable electronic control gear DALI (10-100%)/switch DIM Materials Housing: sheet steel, trim: sheet steel, reflector: anodized polished aluminium Diffuser: PMMA diamond microprisma Surface finish Trim: white (RAL9003), other colors on request

Type

15

80° 80° 80° 80° 80° 80°

60

Type

45

600

60 45

600

cd/klm

30

15 0 C0.0-C180.0

15

30 C90.0-C270.0

ceiling recessed CAPH

CAPH 2000lm 4000K 90

90

75

75 200

60

60

300

45

Light source Optical system Wiring Materials Surface finish

LED Diffuser Dimmable electronic control gear DALI (10-100%) (separate gearbox, cable length 0,5m) Housing: sheet steel Diffuser: PMMA OPAL + PMMA diamond microprisma White (RAL 9003), other colors on request

45

400 cd/klm

30

15 0 C0.0-C180.0

15

30 C90.0-C270.0

Type

net lumen output (at Ta = 25 °C) (lm)

power consumption

2000

CAPH

hellos

HELLOS 4300lm 4000K 90

90 75

75 300

60

60

450 600

45

correlated color temperature CCT (K)

thermal management

(W)

color rendering index CRI (Ra)

45

93

4000

•

correlated color temperature CCT (K)

thermal management

4000 4000 4000

• • •

PASSIVE

Light source LED Optical system Reflector+ refractor Wiring Electronic control gear Materials Housing: sheet steel Reflector: vacuum coated plastic Refractor: etched PMMA Surface finish Housing: white (RAL 9003)

45

750 cd/klm

30

15 0 C0.0-C180.0

15

30 C90.0-C270.0

Type

net lumen output (at Ta = 25 °C) (lm)

power consumption (W)

colo rendering index CRI (Ra)

2150 4300 4300

34 69 69

80 80 80

HELLOS PV-3 HELLOS PV-1 HELLOS PV-4

GACRUX

GACRUX 4000lm 4000K 90

90 75

75 200

60

60

300 400

45

45

30

15 0 C0.0-C180.0

15

Light source LED Optical system Diffuser Wiring Dimmable electronic control gear DALI Materials Housing: sheet steel, diffuser: PMMA OPAL + PMMA diamond microprisma Surface finish White (RAL 9003), other colors on request Type

cd/klm

30 C90.0-C270.0

GACRUX PV-1 MICROPRISMA GACRUX PV-4 MICROPRISMA GACRUX PV-1 OPAL GACRUX PV-4 OPAL

PRODUCTS

PASSIVE

net lumen output (at Ta = 25 °C) (lm)

power consumption

correlated color temperature CCT (K)

thermal management

(W)

color rendering index CRI (Ra)

3900 4400 3550 4000

51 51 51 51

>80 >80 >80 >80

3000/4000 3000/4000 3000/4000 3000/4000

• • • •

PASSIVE

ceiling recessed BECRUX

Light source LED Optical system Lenses Wiring Dimmable electronic control gear DALI (10-100%) Materials Housing: sheet steel, shade: polished stainless steel, decorative frame: sheet steel Surface finish Housing: mettallic, decorative frame: white (RAL 9003), other colors on request

BECRUX LED 4500lm 3000K 90

90 75

75 400

60

60

600 800

45

45

1000 cd/klm

30

Type

BECRUX PV 28 BECRUX PV 40 BECRUX PV 35 BECRUX PV 50 BECRUX PV 70 BECRUX PV 100 BECRUX PV 77 BECRUX PV 110

VEGA exclusivE

net lumen output (at Ta = 25 °C) (lm)

power consumption

correlated color temperature CCT (K)

thermal management

(W)

color rendering index CRI (Ra)

1300 - 1800 1720 - 2400 1600 - 2250 2150 - 3000 3250 - 4500 4300 - 6000 3600 - 4950 4500 - 6300

28 40 35 50 70 100 77 110

70 - 85 70 - 85 70 - 85 70 - 85 70 - 85 70 - 85 70 - 85 70 - 85

3000 - 5700 3000 - 5700 3000 - 5700 3000 - 5700 3000 - 5700 3000 - 5700 3000 - 5700 3000 - 5700

• • • • • • • •

PASSIVE

Light source LED Optical system Reflector, diffuser Wiring Dimmable electronic control gear DALI (10-100%) Materials Housing: sheet steel, reflector: aluminum sheet Diffuser: acryl satine Surface finish Housing: white (RAL 9003), reflector: white (RAL 9003)

VEGA EXCLUSIVE PV-1 VEGA EXCLUSIVE PV-1 VEGA EXCLUSIVE PV-2 VEGA EXCLUSIVE PV-2

VEGA STANDARD

power consumption

2200 3600 4700 7150

90 75

75 400

60

800

45 30

60

thermal management

(W) 31 55 74 112

>80 >80 >80 >80

4000 4000 4000 4000

• • • •

SAIPH

30 C90.0-C270.0

75 60 45

240 30

15 0 C0.0-C180.0

15

30 C90.0-C270.0

PASSIVE

INDIRECT VEGA LED 3200lm 4000K 90

90

75 60

correlated color temperature CCT (K)

thermal management

(W)

color rendering index CRI (Ra)

45 45

>80 >80

3000 4000

• •

75

80 120 160

60 45

240

cd/klm

3000 3200

15

80 120 160

45

VEGA STANDARD PV-1 VEGA STANDARD PV-1

15 0 C0.0-C180.0

90

75

correlated color temperature CCT (K)

power consumption

45

1000 cd/klm

90

color rendering index CRI (Ra)

net lumen output (at Ta = 25 °C) (lm)

60

600

INDIRECT VEGA LED 7150lm 4000K

Light source LED Optical system Reflector, diffuser Wiring Dimmable electronic control gear DALI (10-100%) Materials Housing: sheet steel, reflector: alumium sheet Diffuser: opal PMMA Surface finish Housing and reflector: white (RAL 9003)

Type

30 C90.0-C270.0

90

cd/klm

net lumen output (at Ta = 25 °C) (lm)

15

BECRUX LED 6300lm 5700K

45

Type

15 0 C0.0-C180.0

30

15 0 C0.0-C180.0

15

30 C90.0-C270.0

PASSIVE

Light source LED Optical system Diffuser Wiring Electronic control gear On request: dimmable electronic control gear DALI (10-100%)/ 1-10V (5-100%) Materials Housing: sheet steel, diffuser: opal Surface finish Housing: white (RAL 9003)

INDIRECT SAIPH LED 4000lm 4000K 90

90 75

75 60

60

200 300

45

45

cd/klm

30

Type

SAIPH PV-1 SAIPH PV-1 SAIPH PV-2 SAIPH PV-2

net lumen output (at Ta = 25 °C) (lm)

power consumption

correlated color temperature CCT (K)

thermal management

(W)

color rendering index CRI (Ra)

3000 3000 4000 4000

34 34 36 36

90 90 90 90

3000 4000 3000 4000

• • • •

PASSIVE

138/139

15 0 C0.0-C180.0

15

30 C90.0-C270.0

ceiling recessed baten

INDIRECT baten LED 3200lm 4000K 90

90 75

75 60

60

200 300

45

45

Light source LED Optical system Diffuser Wiring Electronic control gear On request: dimmable electronic control gear DALI (10-100%) Materials Housing: sheet steel, diffuser: linear microprisma Heatsink: aluminium profile Surface finish Housing: white (RAL 9003)

cd/klm

30

15 0 C0.0-C180.0

15

30 C90.0-C270.0

Type

BATEN BATEN

terzo LED

TERZO LED 4500lm 3000K 90

90

75

75

200 300 400 500

60 45

60

Light source Optical system Wiring Materials Surface finish

net lumen output (at Ta = 25 °C) (lm)

power consumption

correlated color temperature CCT (K)

thermal management

(W)

color rendering index CRI (Ra)

3200 3200

34 34

80 80

3000 4000

• •

PASSIVE

LED Diffuser, parabolic louvre (PAR-L) Dimmable electronic control gear DALI (10-100%) Housing: sheet steel, diffuser: vacuum moulded opal polycarbonate Parabolic louvre: anodized polished aluminium Housing: white (RAL 9003)

45

cd/klm

30

15 0 C0.0-C180.0

15

30 C90.0-C270.0

Type

net lumen output (at Ta = 25 °C) (lm)

power consumption

4200 4500 4500

TERZO LED TERZO LED TERZO LED

terzo HYBRID

TERZO HYBRID 5150lm 3000K 90

90

75

75

200 300 400 500

60 45

60 45

cd/klm

30

15 0 C0.0-C180.0

15

30 C90.0-C270.0

TERZO HYBRID TERZO HYBRID TERZO HYBRID TERZO HYBRID

terzo

90

90

75

75

200 300 400 500

60 45

60 45

68 68 68

80 80 80

3000 4000 3000-6500

• • •

PASSIVE

Light source Linear fluorescent lamp FDH (T5), LED Optical system Diffuser, parabolic louvre (PAR-V2/PAR MAT-V2) Wiring Electronic control gear On request: dimmable electronic control gear (1-10V/switch DIM/DSI/DALI) Materials Housing: sheet steel, diffuser: vacuum moulded opal polycarbonate Parabolic louvre: anodized polished/mat aluminium Surface finish Housing: white (RAL 9003) Type

TERZO 4x24W

correlated color temperature CCT (K)

thermal management

(W)

color rendering index CRI (Ra)

lamp

net lumen power output consumption (at Ta = 25 °C) (lm) (W)

FDH+LED FDH+LED FDH+LED FDH+LED

4200 4600 4850 5150

color rendering index CRI (Ra)

correlated color temperature CCT (K)

thermal management

4000 4000 4000 4000

80 80 80 80

• • • •

1x14+55 1x24+55 2x14+55 2x24+55

PASSIVE

Light source Linear fluorescent lamp FDH (T5) Optical system Diffuser + parabolic louvre (PAR-V2/PAR MAT-V2) Wiring Electronic control gear On request: dimmable electronic control gear (1-10V/switch DIM/DSI/DALI) Materials Housing: sheet steel, diffuser: vacuum moulded opal polycarbonate Parabolic louvre: anodized polished/mat aluminium Surface finish Housing: white (RAL 9003)

cd/klm

30

15 0 C0.0-C180.0

15

30 C90.0-C270.0

Type

TERZO PV TERZO PV TERZO PV TERZO PV

PRODUCTS

optical system PAR-V2 PAR MAT-V2 • • • •

• • • •

power (W)

lamp

lampholder

1x14+2x24 3x24 2x14+2x24 4x24

FDH FDH FDH FDH

G5 G5 G5 G5

ceiling recessed MIRZAM

Light source Optical system Wiring Materials Surface finish

LED Diffuser Dimmable electronic control gear DALI (1-100%) Housing: sheet steel, diffuser: opal textured plastic White (RAL 9003)

MIRZAM 3300lm 4000K 90

90 75

75 200

60

60

300 400

45

45

cd/klm

30

Type

MIRZAM MIRZAM

INDIRECT SATIN

INDIRECT SATIN INDIRECT SATIN INDIRECT SATIN INDIRECT SATIN

correlated color temperature CCT (K)

thermal management

(W)

color rendering index CRI (Ra)

3500 3300

52 52

80 80

3000 4000

• •

INDIRECT F-DUO PV INDIRECT F-DUO PV INDIRECT F-DUO PV INDIRECT F-DUO PV INDIRECT F-DUO PV INDIRECT F-DUO PV INDIRECT F-DUO PV INDIRECT F-DUO PV

INDIRECT XTP F-S PV INDIRECT XTP F-S PV INDIRECT XTP F-S PV INDIRECT XTP F-S PV INDIRECT XTP F-S PV INDIRECT XTP F-S PV

30 C90.0-C270.0

INDIRECT SATIN 2x24W 90

90

75

75

100 150 200 250 300

60 45

60 45

cd/klm

30

optical system MICROPRISMA+OPAL

power (W)

lamp

lampholder

• • • •

2x14 2x24 1x40 1x55

FDH FDH FSDH FSDH

G5 G5 2G11 2G11

optical system MICROPRISMA

power (W)

lamp

lampholder

• • • • • • • •

2x14 2x24 2x28 2x54 4x14 4x24 2x40 2x55

FDH FDH FDH FDH FDH FDH FSDH FSDH

G5 G5 G5 G5 G5 G5 2G11 2G11

Light source Linear fluorescent lamp FDH (T5) Compact fluorescent lamp FSDH (TC-L) Optical system Diffuser Wiring Electronic control gear On request: dimmable electronic control gear (1-10V/switch DIM/DSI/DALI) Materials Housing: sheet steel Microprismatic diffuser: extruded polycarbonate Frame: extruded elox aluminium Cover: clear polycarbonate/clear hardened glass Surface finish Powder coat finish – white (RAL 9003), other colors on request Type

15

PASSIVE

Light source Linear fluorescent lamp FDH (T5) Compact fluorescent lamp FSD, FSDH (TC-L) Optical system Backside diffuse reflector, microprismatic diffuser Wiring Electronic control gear On request: dimmable electronic control gear (1-10V/switch DIM/DSI/DALI) Materials Housing: sheet steel, backside diffuse reflector: sheet steel Microprismatic diffuser: extruded polycarbonate Surface finish Powder coat finish – white (RAL 9003), other colors on request Type

INDIRECT XTP F-S MICROPRISMA IP54

power consumption

Light source Linear fluorescent lamp FDH (T5) Compact fluorescent lamp FSDH (TC-L) Optical system Backside - diffuse reflector Microprismatic diffuser with opal foil Wiring Electronic control gear On request: dimmable electronic control gear (1-10V/DSI/DALI) Materials Housing: sheet steel, backside diffuser reflector: sheet steel Microprismatic diffuser: extruded polycarbonate Opal foil: polycarbonate Surface finish Powder coat finish – white (RAL 9003), other colors on request Type

INDIRECT F-DUO MICROPRISMA

net lumen output (at Ta = 25 °C) (lm)

15 0 C0.0-C180.0

optical system MICROPRISMA

power (W)

lamp

lampholder

• • • • • •

1x14 1x24 2x14 2x24 1x40 1x55

FDH FDH FDH FDH FSDH FSDH

G5 G5 G5 G5 2G11 2G11

140/141

15 0 C0.0-C180.0

15

30 C90.0-C270.0

INDIRECT f-DUO MICROPRISMA 2x24W 90

90

75

75

60 120 160 200 240

60 45

60 45

cd/klm

30

15 0 C0.0-C180.0

15

30 C90.0-C270.0

INDIRECT XTP F-S 2x24W 90

90

75

75

40 60

60

60

80 100 120

45 cd/klm

30

15 0 C0.0-C180.0

45 15

30 C90.0-C270.0

ceiling recessed INDIRECT XTP C

INDIRECT XTP c 2x24W 90

Light source Linear fluorescent lamp FDH (T5) Compact fluorescent lamp FSD (TC-L) Optical system Backside diffuse reflector Wiring Electronic control gear On request: dimmable electronic control gear (1-10V/switch DIM/DSI/DALI) Materials Housing: sheet steel, backside diffuse reflector: sheet steel Frame: extruded elox aluminium Cover: clear polycarbonate/clear hardened glass Surface finish Powder coat finish – white (RAL 9003), other colors on request Bottom shades: solid (DECOR L1)/perforated (DECOR L2) sheet metal with the same surface finish as the luminaire housing

90

75

75

40 60

60

60

80 100 120

45 cd/klm

30

15 0 C0.0-C180.0

45 15

30 C90.0-C270.0

Type

optical system DECOR L1 DECOR L2

INDIRECT XTP C PV INDIRECT XTP C PV INDIRECT XTP C PV

RELAX XTP LED 90

75

75 200

60

60

300 45

45

400

• • •

lamp

lampholder

2x14 2x24 2x36

FDH FDH FSD

G5 G5 2G11

Light source LED Optical system Diffuser Wiring Electronic control gear On request: dimmable electronic control gear DALI (10-100%) Materials Housing: sheet steel, frame: extruded aluminium Diffuser: PMMA OPAL + PMMA diamond microprisma Cover: polycarbonate Surface finish White (RAL 9003)

RELAX XTP LED 3400lm 4000K 90

• • •

power (W)

cd/klm

30

15 0 C0.0-C180.0

15

30 C90.0-C270.0

Type

net lumen output (at Ta = 25 °C) (lm)

power consumption

3300 3400

RELAX XTP LED RELAX XTP LED

RELAX A1/A2/A3/A4/A5/A9

RELAX PV PAR-V2 A1 4x14W 90

90

75

75 200

60

60

300

45 30

15 0 C0.0-C180.0

RELAX A1

45

400 15

30 C90.0-C270.0

RELAX A1

RELAX A2

RELAX A4

RELAX A5

RELAX A9

PRODUCTS

49 49

80 80

3000 4000

• •

PASSIVE

Light source Linear fluorescent lamp FDH (T5) Optical system Parabolic louvre (PAR-V2/PAR MAT-V2) Wiring Electronic control gear On request: Dimmable electronic control gear (1-10V/switch DIM/DSI/DALI) Materials Housing: sheet steel Parabolic louvre: polished/mat aluminium Bottom sheet: sheet steel Surface finish Powder coat finish – white (RAL 9003) Other colors on request Bottom sheet: solid (DECOR L1)/perforated (DECOR L2)

Type

optical system PAR-V2 PAR MAT-V2

RELAX A3

correlated color temperature CCT (K)

thermal management

(W)

color rendering index CRI (Ra)

Relax PV A1 Relax PV A1 Relax PV A2 Relax PV A2 Relax PV A3 Relax PV A3 Relax PV A4 Relax PV A4 Relax PV A5 Relax PV A5 Relax PV A9 Relax PV A9

• • • • • • • • • • • •

• • • • • • • • • • • •

decor

power

L1

L2

(W)

• • • • • • • • • • • •

• • • • • • • • • • • •

4x14 4x24 3x14 3x24 4x14 4x24 4x14 4x24 4x14 4x24 3x14 3x24

lamp

lampholder

FDH FDH FDH FDH FDH FDH FDH FDH FDH FDH FDH FDH

G5 G5 G5 G5 G5 G5 G5 G5 G5 G5 G5 G5

ceiling recessed LINE RANGE PB 100 led single piece

Light source LED Optical system Diffuser Light distribution Direct Wiring Dimmable electronic control gear DALI (10-100%) Materials Housing: sheet steel, reflector: aluminium Diffuser: opal PMMA Surface finish Housing: white (RAL 9003) Rreflector: white (RAL 9003), other colors on request

LINE RANGE PB 100 led single piece 4700lm 4000K 90

90

75

75 800

60

60

1200 45

45

1600 cd/klm

30

Type

net lumen output (at Ta = 25 °C) (lm)

power consumption

4550 4700

LINE RANGE PB 100 SINGLE PIECE LINE RANGE PB 100 SINGLE PIECE

LINE snappy SINGLE PIECE

Light source Optical system Wiring Materials Surface finish

correlated color temperature CCT (K)

thermal management

(W)

color rendering index CRI (Ra)

59 59

>80 >80

3000 4000

• •

15 0 C0.0-C180.0

15

30 C90.0-C270.0

PASSIVE

LED Diffuser Electronic control gear Housing: extruded aluminium, diffuser: opal polycarbonate Fixing accessories: zinc coated sheet steel White (RAL 9003)

LINE SNAPPY LED 4100lm 4000K 90

90

75

75

100 150 200 250 300

60 45

60 45

cd/klm

30

Type

net lumen output (at Ta = 25 °C) (lm)

power consumption

4100 4100

LINE SNAPPY SINGLE PIECE LINE SNAPPY SINGLE PIECE

RELAX ASYMMETRIC led

correlated color temperature CCT (K)

thermal management

(W)

color rendering index CRI (Ra)

66 66

80 80

3000 3000

• •

15 0 C0.0-C180.0

15

30 C90.0-C270.0

PASSIVE

Light source LED Optical system Asymmetric reflector Wiring Electronic control gear On request: dimmable electronic control gear DALI (10-100%) Materials Housing: sheet steel, reflector: polished aluminium Surface finish Housing: white (RAL 9003), other colors on request

relax asymmetric led 3550lm 4000K 90

90

75

75

60

60 450

45

45

600 cd/klm

30

Type

net lumen output (at Ta = 25 °C) (lm)

power consumption

3550 3550 3550

RELAX PV ASYM. LED RELAX PV ASYM. LED RELAX PV ASYM. LED

RELAX PB H

correlated color temperature CCT (K)

thermal management

(W)

color rendering index CRI (Ra)

47 47 47

80 80 80

3000 4000 3000-6500

• • •

PAR-V2 RELAX PB H RELAX PB H RELAX PB H RELAX PB H RELAX PB H RELAX PB H RELAX PB H RELAX PB H RELAX PB H RELAX PB H RELAX PB H RELAX PB H RELAX PB H RELAX PB H

• • • • • • • • • • • • • •

optical system PAR MAT-V2 OPAL • • • • • • • • • • • • • •

• • • • • • • • • • • • • •

15

30 C90.0-C270.0

PASSIVE

Light source Linear fluorescent lamp FDH (T5) Optical system Parabolic louvre (PAR-V2/PAR MAT-V2), diffuser (OPAL/PRISMA) Wiring Electronic control gear On request: dimmable electronic control gear (1-10V/switch DIM/DSI/DALI) Materials Housing: sheet steel, parabolic louvre: polished/mat aluminium Diffuser: opal/prismatic polycarbonate lSurface finish Powder coat finish – white (RAL 9003) Other colors on request

Type

15 0 C0.0-C180.0

power (W)

lamp

lampholder

PRISMA • • • • • • • • • • • • • •

1x14 1x24 1x28 1x35 1x49 1x56 1x80 2x14 2x24 2x28 2x54 2x35 2x49 2x80

FDH FDH FDH FDH FDH FDH FDH FDH FDH FDH FDH FDH FDH FDH

G5 G5 G5 G5 G5 G5 G5 G5 G5 G5 G5 G5 G5 G5

142/143

RELAX PB H 1x35W 90

90

75

75

100 150

60

60

200 250 300

45

45

cd/klm

30

15 0 C0.0-C180.0

15

30 C90.0-C270.0

TRACK system vario track 11/12 LED

TRACK VARIO 11 LED 24° 2200lm 4000K 90

90 75

75 60

1000 1500

45

2000 2500

60 45

cd/klm

30

15 0 C0.0-C180.0

15

30 C90.0-C270.0

Light source LED Optical system Reflector Wiring Electronic control gear On request: dimmable electronic control gear DALI (10-100%) Materials Housing: aluminium profile, plastic box for control gear: ABS Installation plate: galvanised sheet steel Surface finish Housing: grey (RAL 9006) Plastic box for control gear: grey with metal pigment

Type

net lumen output (at Ta = 25 °C) (lm)

power consumption (W)

VARIO TRACK 11 LED 1100 31 (26*) VARIO TRACK 11 LED 1100 29 (24*) VARIO TRACK 12 LED 2200 62 (52*) VARIO TRACK 12 LED 2200 58 (48*) * power consumption without decorative LED ring

vario track exe/exe twin par-v2/par mat-v2

color rendering index CRI (Ra) >80 >80 >80 >80

correlated thermal color management temperature CCT (K) PASSIVE 3000 4000 3000 4000

• • • •

beam angle

24° 24° 24° 24°

vario track system

vario track diffuse

wall mounted Luminaires are designed for wall mounting. Thanks to their light distribution is luminaire with linear light source, which creates uniform lighting across the up and down we are able to emphasize vertical surfaces. There are two types whole wall from the ceiling to the floor. of these wall mounted luminaires. The first one is luminaire with a point light source, which creates on the wall elipsoidal traces of the light. The second one

vario mini 1/2 led

VARIO MODUL MINI 1 LED 27° 2000lm 4000K 90

90 75

75 1000 1500 2000 2500

60 45

60 45

Light source LED Optical system Reflector Wiring Electronic control gear On request: dimmable electronic control gear DALI (10-100%) Materials Housing: aluminium profile, covers: ABS Installation plate: galvanised sheet steel, plastic box for control gear: ABS Surface finish Housing: grey (RAL 9006), plastic box for control gear: grey with metal pigment

cd/klm

30

15 0 C0.0-C180.0

15

30 C90.0-C270.0

Type

net lumen output (at Ta = 25 °C) (lm)

power consumption (W)

VARIO MINI 1 LED 1100 31 (26*) VARIO MINI 1 LED 1100 29 (24*) VARIO MINI 1 LED 2000 42 (37*) VARIO MINI 1 LED 2000 38 (33*) VARIO MINI 2 LED 2200 62 (52*) VARIO MINI 2 LED 2200 58 (48*) VARIO MINI 2 LED 4000 84 (74*) VARIO MINI 2 LED 4000 76 (66*) * power consumption without decorative LED ring

PRODUCTS

color rendering index CRI (Ra) >80 >80 >80 >80 >80 >80 >80 >80

correlated thermal color management temperature CCT (K) PASSIVE 3000 4000 3000 4000 3000 4000 3000 4000

• • • • • • • •

beam angle

24° 24° 27° 27° 24° 24° 27° 27°

wall mounted WALL CYGNUS

Light source Optical system Wiring Materials Surface finish

LED Diffuser Dimmable electronic control gear - thyristor dimming (5-100%) Housing: sheet steel, diffuser: opal plast Grey (RAL 9006), other colors on request

WALL CYGNUS LED 90° 1000lm 4000K 90

90

75

75 200

60

60

300

Type

net lumen output (at Ta = 25 °C) (lm)

power consumption (W)

color rendering index CRI (Ra)

700 700 1000 1000

10 10 15 15

>90 >90 >90 >90

WALL CYGNUS WALL CYGNUS WALL CYGNUS WALL CYGNUS

avant wall LED

3000 4000 3000 4000

• • • •

beam angle

net lumen output (at Ta = 25 °C) (lm)

power consumption (W)

color rendering index CRI (Ra)

5050 5050 4200 4200

72 72 72 72

>80 >80 >80 >80

AVANT WALL OPAL AVANT WALL OPAL AVANT WALL MICROPRISMA AVANT WALL MICROPRISMA

4000 3000 4000 3000

optical system

• • • • • • • • •

• • • • • • • • •

• • • • • • • • •

• • • • • • • • •

• • • • • • • • •

15 0 C0.0-C180.0

15

30 C90.0-C270.0

AVANT WALL led 5050lm 4000K 300 250 200 150 100

105

120 105

90

90

75

75

60

60

cd/klm

45

30 15 0 C0.0-C180.0

15

30 45 C90.0-C270.0

correlated thermal color management temperature CCT (K) PASSIVE

PAR-V PAR MAT-V OPAL MICROPRISMA *SYM. **ASYM. AVANT WALL AVANT WALL AVANT WALL AVANT WALL AVANT WALL AVANT WALL AVANT WALL AVANT WALL AVANT WALL

30

120

• • • •

Light source Linear fluorescent lamp FDH (T5) Optical system Diffuser (OPAL/MICROPRISMA) Parabolic louvre (PAR-V/PAR MAT-V) Reflector (SYMMETRIC/ASYMMETRIC) Wiring Electronic control gear On request: dimmable electronic control gear (1-10V/ switch DIM/DSI/DALI) Materials Housing: extruded aluminium, end caps: die cast aluminium Diffuser: PC/PMMA, diffuser end caps: PC/PMMA Reflector: anodized polished aluminium, reflector end caps: ABS/PMMA Parabolic louvre: polished or mat aluminium Carrying plate: extruded aluminium Surface finish Powder coat finish – grey (RAL 9006)

Type

45 cd/klm

90° 90° 90° 90°

Light source LED Optical system Diffuser (OPAL/MICROPRISMA) Wiring Dimmable electronic control gear DALI (10-100%) Materials Housing: extruded aluminium, end caps: die cast aluminium Diffuser: PC/PMMA, diffuser end caps: PC/PMMA Wall bracket: steel profile + PC/ABS Carrying plate: extruded aluminium Surface finish Powder coat finish – grey (RAL 9006) Type

avant wall

correlated thermal color management temperature CCT (K) PASSIVE

45

• • • • • • • • •

power lamp lampholder consumption (W) 1x28 1x35 1x49 1x54 1x80 2x28 2x54 2x35 2x49

FDH FDH FDH FDH FDH FDH FDH FDH FDH

G5 G5 G5 G5 G5 G5 G5 G5 G5

* SYMMETRIC **ASYMEMTRIC

144/145

AVANT WALL ASYMMETRIC 2x28W 300 250 200 150 100

120 105

120 105

90

90

75

75

60

60

cd/klm

45

30 15 0 C0.0-C180.0

15

30 45 C90.0-C270.0

freestanding box freestanding

box freestanding 8950lm 4000K 300

120

120

200

105

105

100

90

90

75

75

60

60

cd/klm

45

30 15 0 C0.0-C180.0

15

30 45 C90.0-C270.0

Light source LED Optical system DIR (diffuser)/INDIR (reflector asymmetric) Wiring Electronic control gear Materials Housing: sheet steel, frame: extruded aluminium profile Diffuser: PMMA OPAL + PMMA diamond microprisma Reflector: mat aluminium Surface finish Black (RAL9005), silver grey (RAL 9006) Other colors on request

Type

BOX FREESTANDING BOX FREESTANDING

net lumen output (at Ta = 25 °C) (lm)

power consumption

correlated color temperature CCT (K)

thermal management

(W)

color rendering index CRI (Ra)

8750 8950

118 118

80 80

3000 4000

• •

PASSIVE

EMERGENCY Emergency luminaires are intended for emergency lighting. Low power consumption enables a three-hour operation, the standard EN 1838 requires a minimum one-hour operation of a luminaire. These luminaires have many advantages, such as: • Choice of pendant, wall or ceiling mounting,

UX-EMERGENCY 2600

Light source LED Wiring Ni-Cd battery, protection of battery against total discharge Protection of battery against overload and discharge Materials Housing: white polycarbonate, diffuser: opal polycarbonate Surface finish White Accessories LED charging indicator

Type

UX-Emergency 2601 UX-Emergency 2602 UX-Emergency 2603 UX-Emergency 2604

UX-EMERGENCY 2610

power consumption (W)

battery (Ni-Cd)

duration (h)

light output (lm)

2 2 2 2

3.6 V/1 Ah 3.6 V/1 Ah 3.6 V/1.5 Ah 3.6 V/1.5 Ah

1 1 3 3

25 25 25 25

Light source LED Wiring Ni-Cd battery, protection of battery against overload and discharge Materials Housing: sheet steel, painted white or grey, diffuser: plexiglass Surface finish White Accessories LED charging indicator, test pushbutton

Type

UX-Emergency 2611 UX-Emergency 2612 UX-Emergency 2613 UX-Emergency 2614

PRODUCTS

• Quality light sources such as LED or compact fluorescent lamp, • Ni-Cd batteries with long life, • choice of four types of pictograms, • charging indicator, which informs what is the current battery level of a luminaire, • test button, which serves as a control of functions of the emergency circuit.

power consumption (W)

battery (Ni-Cd)

duration (h)

light output (lm)

2 2 2 2

3.6 V/2.5 Ah 3.6 V/2.5 Ah 3.6 V/2.5 Ah 3.6 V/2.5 Ah

1 1 3 3

25 25 25 25

Emergency UX-EMERGENCY 2810

Light source LED Wiring Ni-Cd battery, protection of battery against overload and discharge Materials Housing: aluminium profile, luminaire surfaces: plexiglass Surface finish White Accessories LED charging indicator, test pushbutton– for emergency circuit function control

Type

nr. of LED‘s

UX-Emergency 2811 UX-Emergency 2812

UX-EMERGENCY 2760

power consumption (W)

battery

duration

light output

(Ni-Cd)

(h)

(lm)

5 6

3.6 V/1 Ah 3.6 V/1 Ah

3 3

18/18 22/18

8 LEDs 11 (EXIT 6) LEDs

Light source LED Wiring Ni-Cd battery, protection of battery against overload and discharge Materials Housing: aluminium profile, luminaire surfaces: plexiglass Surface finish White Accessories LED charging indicator, test pushbutton – for emergency circuit function control

Type

nr. of LED‘s

UX-Emergency 2761 UX-Emergency 2762

power consumption (W)

battery

duration

light output

(Ni-Cd)

(h)

(lm)

5 6

3.6 V/1 Ah 3.6 V/1 Ah

3 3

80/80 100/80

9 (EXIT 8) LEDs 11 LEDs

STREET LIGHTING FORSTREET SIRIUS

Type

F. SIRIUS M F. SIRIUS L F. SIRIUS XL

nr. of LED´s

Light source Optical system Wiring Materials Surface finish

power consumption

(pcs)

net lumen output (at Ta = 25 °C) (lm)

2x8 4x8 6x8

2350 4650 7050

LED PMMA lenses Tilting angle adjustment: 20° to 60° Electronic control gear, bi-level light output (100%/50%) Housing: extruded aluminium Luminaire cover: injection moulded plastic Lenses cover: clear PMMA Housing: black, bottom frame: grey

input

system efficacy

dimming

(W)

color rendering index CRI (Ra)

(V/Hz)

(lm/W)

2x17 4x17 6x17

>70 >70 >70

100-240/50-60 100-240/50-60 100-240/50-60

69 68 69

FORSTREET SIRIUS LED 7050lm 90

90

75

75

60

60 45

45 cd/klm

30

road class

replacement of standard

(%)

recomended mounting height (m)

100/50 100/50 100/50

6-10 6-10 8-12

S3 ME5 ME4b

HST 1x70W HST 1x150W HST 1x150W

146/147

15 0 C0.0-C180.0

15

30 C90.0-C270.0

STREET LIGHTING FORSTREET asterope

FORSTREET ASTEROPE 10700lm 5000K 90

Light source LED Optical system Lenses and reflector Wiring Dimmable electronic control gear 1-10V Materials Housing: die cast aluminium Cover: polycarbonate Reflectors: MIRO4 aluminium Surface finish Housing: black Bottom frame: grey

90 75

75

60

60 400 500 600

45 cd/klm

30

15 0 C0.0-C180.0

45 15

30 C90.0-C270.0

Type

F. ASTEROPE F. ASTEROPE F. ASTEROPE F. ASTEROPE

7 100 8 300 9 500 10 700

correlated color temperature (K)

color rendering index CRI (Ra)

input

system efficacy

dimming

(V/Hz)

(lm/W)

(%)

5000 5000 5000 5000

70 70 70 70

220-240/50-60 220-240/50-60 220-240/50-60 220-240/50-60

89 89 89 89

-

79 92 106 120

FORSTREET syrma

FORSTREET syrma 4650lm 5300K 90

net lumen power output consumption (at Ta = 25 °C) (lm) (W)

Light source Optical system Wiring Material Surface finish

90 75

75 200

60

60

300 400

45

45

500 cd/klm

30

15 0 C0.0-C180.0

15

30 C90.0-C270.0

Type

F. SYRMA LED

PRODUCTS

nr. of LED´s

recomended road class mounting height (m) 7-12 7-12 7-12 7-12

replacement of standard

ME5 ME5 ME4 ME4

HPS 100W HPS 100W HPS 150W HPS 150W

LED Lenses Electronic control gear, bi-level light output (100%/50%) Housing: die cast aluminium Lenses cover: clear PMMA Supporting arms: extruded anodized aluminium profile Housing: black Bottom frame: grey

power consumption

color temp.

color rendering index

input

system efficacy

dim.

recomended mounting height

(pcs)

net lumen output (at Ta = 25 °C) (lm)

(W)

(K)

CRI (Ra)

(V/Hz)

(lm/W)

(%)

(m)

4x8

4650

4x17

4300/5300

>70

100-240/50-60

68

100/50

4-6

road class

replacement of standard

S2-S6

HST 1x70W

ARCHITAINMENT ARCPAD EXTREME

Light source: 188 High Power LED´s Optical system: Lenses Wiring: Two independent LED modules USITT DMX 512 RGBW – depends on request Passive cooling for optimum thermal management Power on board or external Material: Housinh: die cast aluminium Operating ambient temperature range: -20°C/+40°C Operating temperature: +85°C @ ambient: +40°C

Type

ArcPAd Xtreme

ARCSOURCE INGROUND

Arcsource inground 12 Arcsource inground 36

beam angle

(W)

color temperature CCT (K)

thermal management PASSIVE

Lenses

max. 580

rgBW

10°/23°/44°/14°x 26°

•

optical system (lm)

power

beam angle

(W)

color temperature CCT (K)

thermal management PASSIVE

Lenses Lenses

max. 13.6 max. 40.8

rGB/RGBW/cW rGB/RGBW/cW

6°/15°/25°/ 38° 6°/15°/25°/ 38°

• •

Light source: high power LED´s Optical system: Lenses Wiring: Flammability: 94V-0 flame class rating LED color variants: RGBW, cW, WW, r, G, b, A (depends on request) Cable type: Belden 7930A or similar Material: Housing: stainless steel Operating ambient temperature range: -20°C/ +30°C Operating temperature: +60°C @ ambient: +25°C

Type

ARCLINE OPTIC LED RGB

power

Light source: high power LED´s Optical system: Lenses Wiring: LED color variants: RGB, rGBW, White Cable type: Belden 7930A or similar (RJ45) Material: Housing: stainless steel (316), tempered glass, plastic, aluminium Operating ambient temperature range: -20°C/ +30°C Operating temperature: +60°C @ ambient: +25°C

Type

ARCSOURCE TWINWALL

optical system (lm)

optical system (lm)

power

ARCSOURCE WALL 3

Lenses

max. 4.2

ARCSOURCE TWINWALL 3

Lenses

max. 8.4

(W)

color temperature CCT (K)

beam angle

thermal management PASSIVE

rGBW/CW/WW R,G,B,A rGB/RGBW/cW

6°/15°/25°/ 38° asymmetric 6°/15°/25°/ 38° asymmetric

• •

Light source: high power LED´s Optical system: Lenses Wiring: Power supply required: aRCPOWER 36, 72, 144, 360, rackMount384 Cable type: Cat 5e 1,5m with RJ45 male connector Material: precision extruded aluminium, transparent cover made of clear glass Operating ambient temperature range: -20°C/+40°C Operating temperature: +50°C @ ambient: +25°C

Type

optical system (lm)

power

beam angle

(W)

color temperature CCT (K)

thermal management PASSIVE

arcline optic 12 lenses

Lenses

max. 13.6

rGB/RGBW/cW

•

Lenses

max. 20.4

rGB/RGBW/cW

Lenses

max. 27.2

rGB/RGBW/cW

Lenses

max. 40.8

rGB/RGBW/cW

6°/15°/25°/38° asymmetric 6°/15°/25°/38° asymmetric 6°/15°/25°/38° asymmetric 6°/15°/25°/38° asymmetric

arcline optic 18 lenses arcline optic 24 lenses arcline optic 34 lenses

• • •

148/149

The manufacturer reserves all rights to make changes in materials and components used in production of lighting fittings. Autors: Ing. Michal Jančuška, OMS, spol s r.o., Ing. Marián Klepáč, OMS, spol s r.o. Graphic design: © Milan Mikula, Jozef Jagušák, RECO s.r.o., Prepress: RECO s.r.o., Photo: Milan Noga, RECO s.r.o.