energy directive

about the energy performance of buildings, 2002/91/EC about the energy performance of buildings, 2002/91/EC

the energy directivethe energy directive

Over the years the climate has varied between colder

and warmer periods, which is a natural change.

During the last 100 years the climate has become

warmer and researchers on the UNs climate panel

IPCC are in agreement that we humans affect the

climate. It is primarily the combustion of fossil fuels,

oil, coal and gas that amplifies the natural greenhouse

effect, which has been identified as the cause.

On February 16, 005 the Kyoto Agreement came

into force to regulate how we shall limit our emis-

sions of greenhouse gases. The aim is to limit the ever

increasing climate changes. It is mainly the industr-

ialised part of the world that has been instructed to

reduce their emissions.

Latest EU targets challenge member states to cut

carbon dioxide emissions by 0 % by 00. Only Brit-

ain and Sweden are on track to meet current targets

of a 1 % reduction by 01.

Energy control on a global level

i Greenhouse gases

Greenhouse gases include carbon dioxide, methane, nitrous oxide and halocarbons. They all have different retention times in the atmosphere and show different degrees of effectiveness as greenhouse gases. The greatest threat is said to come from carbon dioxide, CO, not because it is the most powerful, but because it is the most common. Carbon dioxide is formed with all combustion, not only with the combustion of fossil fuels (oil, coal, gas). With the combustion of biofuel it is estimated that an equivalent amount of carbon dioxide, which forms during combustion, binds in the organisms to take the place of that combusted. Thus the combustion of fossil fuel is considered to be the greatest threat.

During the last 15-0 years lighting technology has undergone

dramatic development and Fagerhult has been a major partici-

pant. We developed lighting systems for HF-operation as early

as the end of the Eighties. In the middle of the Nineties we

took the next step with the development of luminaires for the

T5 fluorescent lamp. The T5 venture also gave us the possibil-

ity to develop more efficient reflectors and louvres.

Technologies concerning component parts such light sourc-

es, ballasts and reflector material have moved forwards in the

same way that the knowledge of how light can be distributed

more efficiently has. We can contribute towards reducing en-

ergy consumption through developing luminaires for use with

energy saving light sources and through innovations such as

our patent pending reflector technology r5.

Why is this important to Fagerhult? The inheritance that

we leave behind us is the responsibility of everyone, including

companies. 90 per cent of a lighting installations environmen-

tal impact occurs during its operation through the energy it

consumes. Production and distribution of energy loads the en-

vironment, to develop efficient luminaires is our contribution

to make it better. A sensible use of energy today gives envi-

ronmental benefits tomorrow. As market leader we take our

responsibility seriously.

Compared with an older lighting installation a new

installation from Fagerhult can half energy usage. Today be-

tween 0 45 % of the energy in an office complex is used for

lighting. Fagerhult can, with a conscious effort in the develop-

ment of ready-to-use system solutions, with different types

of light control, reduce the energy requirement of our future

lighting systems yet further. The first step has been taken and

we will continue along the chosen route. Reduced energy us-

age for lighting can give additional savings in resources if re-

duction in cooling and indoor climate are added into the dis-

cussion.

Modern lighting gives many environmental benefits over

and above clean energy consumption. For example, the new

fluorescent lamps with HF-operation have a longer life, which

means less relamping, the T5 lamp also contains less mercury.

In addition to the development of energy efficient lighting

solutions, we are also trying to reduce energy consumption at

our manufacturing units. We introduced improved follow-up

methods in 1999, which have resulted in action plans and tar-

gets for the consumption of oil and electricity.

We operate active and long-term environment work, since

1999 Fagerhult with its three manufacturing units holds envi-

ronmental certificates for conformity to ISO 14001 and EMAS.

Fagerhult

Fagerhult and energy

44

The background to this is an EC directive concerning the energy performance of buildings (00/91/EC) which was adopted in 00. The directive has been drawn up to promote improvements related to energy performance at the same time as local conditions are taken into consideration. Southern Europe does not face the same conditions as the North of Norway. The directive has the aim to improve the efficiency of energy usage in Europe as a part of the EUs measures to satisfy the Kyoto Agreement concerning the reduction of greenhouse gases. The EC directive means that all properties are to be declared with regard to energy consumption and came into force on January 4, 006. An implementation time up to 009 is expected on account of the need to train inspectors. The directive stipulates that affected buildings will be classified and consideration must be taken to all types of energy, daylight, ventilation etc. England and Wales have already started to implement the Directive with the recent amendment to Part L of the Building Regulations, which came into force on 6th April 006. These changes, which improve energy efficiency standards by 40% over 00, implement Articles ,4,5,and 6 of the Energy Performance of Buildings Directive in England and Wales. The Directive allows a three year derogation to apply fully the requirements for energy certificates and plant inspections and the UK government are working with stakeholders to ensure sufficient numbers of trained inspectors are in place to support a phased programme of implementation. England is the first European country to implement the EPBD.

Energy declaration of buildings

Nearly 50% of the UKs emissions are gene-rated through the way we heat,light and use our buildings. The Governments Climate Change agenda recognises that comparatively

minor changes to the ways in which we construct and use buildings can have a large cumulative effect.

The Minister for Housing and Planning (Yvette Cooper)

55

Energy DirectiveThe aim is to promote an improvement in the energy performance in buildings within the EU and in doing so reduce the discharge of climate-influencing gases, exactly as stated in the Kyoto agreement. At the same time a reduction in the use of energy is also sought. The energy declaration is only a part of what the direc-tive decrees, yet it is the part that has the greatest effect on the property owners. In the annex to the Directive it cites the importance of applying positive factors, which should be used where possible. The positive factor that springs to mind for lighting is the addition of natural light. Accordingly, you should not just calculate energy us-age, consideration should also be taken to the outdoor climate and local conditions and to demands on the indoor climate (e.g. EN 1464-1) and cost efficiency. The energy declaration will probably have an effect on tenants when choosing between different premis-es. A declaration that indicates that the premises being rented is energy efficient creates a higher value. Who would want to rent premises that have been de-clared as having a poor energy performance, especially if you have a contract excluding heating and hot water and must pay for these yourself?

Exemption

All buildings do not need to be included. The member

states may decide themselves to exempt buildings with

official protection as a part of a selected environment.

They can also be exempted on account of their special

architectural or historical value if the demands should re-

sult in unacceptable changes to their distinctive features

or appearance. Exemptions can also be given to churches

or other buildings used for spiritual and religious activi-

ties. In the UK Part L building regulations there are the

usual exclusions for historic buildings.

Other buildings not included are temporary buildings

(intended for two years of use or less), industries, work-

shops and agricultural buildings with a low energy re-

quirement that are not intended as dwellings and which

are used within a sector not encompassed by a national

sector agreement concerning energy performance.

Single family houses (weekend cottages or residen-

tial properties) intended for use less than four months

per year or freestanding buildings with an overall usable

floor area of less than 50 m are also exempt.

The energy performance of buildings

66

An EC directive is binding for each member state it is

directed to, but the member state may decide itself

the form and procedure for implementation.

According to the EC treaty, directives can be adopted

by the European Parliament and the Council, solely by

the Council or by the Commission. Within the civil col-

laboration it is more common to use an ordinance than

a directive. When an EC directive has been adopted it is

to be implemented by each of the member states, that

is to say, transformed into national legislation.

EU, laws and regulations

EU is sometimes illustrated as a building consisting of

three columns. The columns make up the EUs different

areas of cooperation and one of the reasons for the

breakdown is that the laws and regulations adopted

by the EU work in different ways depending on within

which areas the regulations have their basis.

EU structure

The first column, European community or the community

column, embraces the larger part of cooperation within

the EU. The laws and regulations that the member states

adopt in this column are known as EC law and have their

judicial basis in the EC treaty. It is primarily within EC law

that the EC court may expound and judge.

According to the EC court, EC law shall apply before

national law. This means that a national law that contra-

venes EC law shall not be applied.

Included in EC law are:

1. The EC treaty and Euratom treaty in their applicable

tenors.

. Legal acts adopted by the EU institutions, for example,

ordinances and directives.

. Agreements between the EU and countries outside of

the EU.

4. EC courts legal practice. The EC court determines in its

judgements how EC law is to be expounded.

The EU can also adopt different types of legal acts within

the second column, which includes the EUs cooperation

concerning foreign and security policies, and the third

column, which contains police and criminal cooperation.

Exactly as in the first column, some legal acts within

these pillars can be legally binding for the member states.

The member states are then obliged to follow and apply

the legal acts. Other legal acts are solely politically binding

and the member states are expected to observe them.

EUEuropean Union

1st column(supranational)

2nd column(international)

3rd column(international)

ECEuropean

Community

emuEuropean Mone-

tary System

ec lawcommunity of

law with uniform legislation

cfspCommon Foreign & Security Policy

epcEuropean

Political Coope-ration

Judicialand police

cooperation

schengenremoval of the

internal borders within EU

Council of ministers

EC directive

i CEN

CEN stands for Comit Europen de Normalisation, i.e. the European standardisation committee. CEN manages virtually all sectors within the indus-try. CEN, with its headquarters in Brussels, Belgium, has 8 member countries and six associated countries. Representatives from the European commission and Efta also participate in the work to draw up standards.

EC directive and standards

The EC directive - Energy Performance of Buildings,

00/91/EC (EC stands for European Communities)

stipulates what shall be done, when buildings within

the EU will have an energy usage declaration.

Demands are established in the directive concerning:

a) The general framework for a calculation methodolo-

gy for the buildings integrated energy performance.

b) Implementation of minimum requirements for the

energy performance of new buildings.

c) The implementation of minimum requirements for

the energy performance in existing large buildings

that undergo major renovation.

d) Energy declaration (certification) of buildings.

e) Regular controls of boilers and air conditioning sys-

tems in buildings and an evaluation of heating in-

stallations if the boilers in it are older than 15 years.

Common standards are created to produce common

calculation methodology (see paragraph a above). Dif-

ferent standards are drawn up to calculate the differ-

ent energy consumers in the building.

Naturally lighting is included as an important part

of the energy usage in a building. It must be evalu-

ated with an index (Lighting Energy Numeric Indicator,

LENI) and is expressed in kWh/m , year. Accordingly,

the focus is shifted from the installed output to how it

is used over time, energy.

The standard that defines the methodology for how

to calculate energy consumption for lighting is called,

or will be called EN 1519 Energy performance of

Buildings - Energy requirements for lighting. The draft

to the coming standard is called prEN 1519.

The draft of the standard was sent out to the mem-

ber states for the first enquiry in August 005. In De-

cember a decision was made that formal voting would

be possible during 006.

Publishing of the standard is calculated to take

place at the beginning of 00. Computerised calcula-

tion tools are also expected to be available at the same

time.

Common standards

Work to produce common European standards that

specify the new method-directives demands on health,

safety and the environment is carried out by the Euro-

pean standardisation bodies CEN, Cenelec and ETSI.

88

The calculation of the LENI number for the building is done

using the formula:

LENIcalculated=Wtotal/A(kWh/m, year)

The LENI number can be calculated in two different ways, a quick and a comprehensive.

LENI is calculated on the lighting for the entire building. At the same time the lighting shall conform to current standards and recommendations for indoor lighting (EN 1464-1).

Wtotal is the total annual energy usage for lighting

A is the buildings total interior area (m). The area is calculated inside the outside walls excluding non-used cellar areas and unlit rooms.

The indicator for the energy efficiency of the lighting The energy consumption for lighting must be declared with an index (Lighting Energy Numeric Indicator, LENI) and is expressed in kWh/m, year.

The quick method

is used to give an estimate of the buildings annual energy usage. The method can be used for just a number of com-mon building types. The standard includes tables where the annual standard data for different types of buildings can be read to aid calculation according to the quick method. These are offices, buildings for tuition, hospitals, hotel, res-taurants, sports centres, department stores and retail shops and manufacturing industries.

The quick method also includes a standard value for the para-sitic energy (Wparasitic) which is stated as 6 kWh /m

and year and which should be used when applicable. It is distributed over 1 kWh /m and year for charging emer-gency lighting and 5 kWh /m and year for standby energy for the ballast.

The comprehensive method

is based on actual values for each room. Unlike the quick method, the comprehensive method can be used for all types of buildings even at different geographical positions. As the comprehensive method is based on actual values it gives a lower LENI number than a calculation with the quick method.

The comprehensive method can be used for all types of build-ings irrespective of geographical location. Using the compre-hensive method you can calculate for a selected period (not only the whole year) under the condition that you can get an estimation of the presence and availability of daylight. In the examples on the coming pages we have used the compre-hensive method.

The coming standard EN 1519, Energy performance of Buildings - Energy requirements for lighting, describes an harmonised calculation method for how energy usage for interior lighting is to be calculated within different buildings. The lightings energy efficiency in the building shall be rated by an index expressed in kWh/m, year (LENI*). The LENI-number is to be presented for the entire building and can be used to compare the energy consumed for lighting. The comparison can be made between different buildings with the same function, but of a different size and design. The standard will give example values of the LENI number for a number of common building types. These can be used as the basis for national recommendations. New regulations 1A to 1E of the UK Part L Building Regulation implement Articles and 4 of the Energy Performance of Buildings Directive and state that the Secretary of State shall approve a met-hodology of calculation of the energy performance of buildings. Initially this is being achieved for nondomestic buildings with the Simplified Building Energy Methd (SBEM) and for dwellings by a revision of the Standard Application Procedure (SAP) rating system. The LENI rating has been written into the UK SBEM software by the Building Research Establishment (BRE). The UK calculation methodology relies on the use of a notional building. This is a building with the same geometry and activity data as the actual building but built with systems in accordance with Part L standards. The methodology then requires that two calculations are performed: one on the actual building and one on the notional equivalent. For Part L compliance, the actual building has to perform better than the notional building by a specified percentage improvement.

LENI=Wlight+Wparasitic/AkWh/m, year LENI=Wlight+Wparasitic/AkWh/m

, time** Using the comprehensive method you can calculate on an annual, monthly or time basis.

The LENI number, the rating index for lightings specific annual energy usage

prEN 15193

99

The total energy consumed for lighting is calculated according to the formula and is stated kWh/year: Wtotal=Wlight+Wparasitic

prEN 15193To calculate energy usage for lighting (Wtotal )

Wlight is the estimated energy consumption to power the lighting in the building during a given period. All light sources and ballasts included.

Wparasitic is the estimated energy used when the lighting is extinguished. That is to say, the energy used by the ballast in standby mode or for charging emergency luminaires.

is a correction factor for constant illuminance in

a room or a zone. FC is affected by: - maintenance factor () - maintenance plan.

When constant light control is used: FC = (1+retention factor)/, otherwise the standard value 0.9 is used.

is a correction factor for daylight. FD relates

use of the total lighting output to the availability of daylight in the building.

FD is affected by : - the daylight factor (amount of daylight) - illuminance - type of control

is a correction factor depending on presence.

FO relates use of the total lighting output to the avail-ability of presence time in the building.

FO is affected by: - presence/absence - the type of control - total utilization time (t tot) day+night (tN+tD)

is the total installed lighting output within

a room or zone, measured in watt (Pn = Pi)

W light is affected by the following factors

The formula to calculate the energy consumption: Wlight = [(Pn x FC) x [(tD x FD x FO) + (tN x FO)]] / 1000 kWh/m2, year

charging power for emergency lighting-

within the building.

Emergency lighting system Control system

is the charging time for emergency

lighting (standard value for tem is 860 h/year)

parasitic standby po-wer for control equipment when the lighting is in the off position.

time when the lighting is in the

off position [tY - (tD + tN)] (standard value for tY is 860 h/year)

W parasitic is affected by the following factors

The formula to calculate the parasitic energy: Wparasitic = [Ppc, Light-off x tLight-off + (Pem x tem)] / 1000 kWh/m2, year

Which factors affect the lightings output in operation, Wlight?

Which factors affect the lightings output when it is extinguished, Wparasitic?

1010

Example cellular office .4 x 4 mLightingplanningIn accordance with the European standard for lighting indoor workplaces EN 1464-1 and the UK lighting guide LG.

Average illuminance in operation 500 lux on the working plane and 00 lux within the immediate surroundings.

LightingsolutionA cellular office with a workplace oriented pen-dant, equipped with Ten Lamell x5 W.

LOR 4.9 % Circuit watts W.

Part L luminaire-lumens/ circuit watt calcula-tion 5.5 (incorporating LB control factor).

Controlsystem Daylight/Constant light control.

Absence control.

EnergyusageWlight 4 kWh/year

Wparasitic 9 kWh/year

Wtotal 56 kWh/year

LENIsub-area 5.8*

*The LENI number is normally an indicator for the whole buildings energy efficiency. The value has been broken down to a sub-area for comparison between different sub-areas.

Example two person office 4.8 x 4 m LightingplanningIn accordance with the European standard for lighting indoor workplaces EN 1464-1 and the UK lighting guide LG.

Average illuminance in operation 500 lux on the working plane and 00 lux within the immediate surroundings.

LightingsolutionA two person office with localised general lighting with four recessed Multifive Beta 1x8 W luminaires.

LOR 8.% Circuit watts W.

Part L luminaire-lumens/circuit-watt calculation 80.8 (incorporating LB control factor).


Absence control.



Wtotal 11 kWh/year

LENIsub-area 6.1*


A cellular office where we have used a position

oriented lighting system with a T5-luminaire

where the lighting is oriented according to the

workplace. Control is integrated in the luminaire.

During the entire usage time which is normally

0 years for a lighting installation, light control

represents a saving of in total 1690 kWh compared

with the same room with manual On/Off control

during the same period.

Wtotal with traditional manual On/Off control is

calculated to 140 kWh/year, a saving of 60 % is

attained in the example by using control.

An office where we have used a localised general lighting

system with four T5 luminaires. Control is integrated in two

of the luminaires and these control the other luminaire in the

same zone.

During the entire usage time which is normally 0 years for

a lighting installation, light control represents a saving of in

total 090 kWh compared with the same room with manual

On/Off control during the same period.

Wtotal with traditional manual On/Off control is calculated

to kWh/year. The saving in this instance is 4 %.

Calculated energy usage for the lighting of officesThe example is calculated according to prEN 15193 Lighting Energy Estimation

1111

Example large office 1 x 10 m LightingplanningIn accordance with the European standard for lighting indoor workplaces EN 1464-1 and the UK lighting guide LG.

Average illuminance in operation 500 lux on the work plane.

LightingsolutionA large office with general lighting made up of Sixteen Como Wide x8 W ref. 206101 LOR 60%, circuit watts 6 W

and eight Pleiad Compact Matt 1x6 W ref. 76142 LOR 50%, circuit watts 6 W.

Despite the non compliance of the Pleaid downlight in this instance, when calculated with the Como luminaire, the space becomes compliant with a Part L luminaire-lumens /circuit watt calculation of 5.0 (incorporating LB control factor).


Presence control.



Wtotal 008 kWh/year

LENIsub-area 16.*


A traditional large office with general lighting consisting of

recessed T5 luminaires and and compact fluorescent down-

lights.

A general lighting system with 500 lux on the working

plane results in higher energy consumption than with a local-

ised lighting system. In addition the general lighting system

requires local lighting on each workplace.

Control is integrated in one of luminaires in each row of

luminaires and this controls the other luminaires in the same

row. The standard requires one presence sensor per 0 m in

this type of room.



total 1468 kWh compared with the same room with manual

On/Off control during the same period.

Wtotal with traditional manual On/Off control is

calculated to 68 kWh/year, a saving of 5 % is attained

in the example by using control.

Example of the implementation of prEN 15193The example is calculated according to prEN 15193 Lighting Energy Estimation

11

Example Classroom 8.4 x , m LightingplanningIn accordance with the European standard for lighting indoor workplaces EN 1464-1 and the UK lighting guide LG.

Average illuminance in operation 500 lux on the work plane.

LightingsolutionA classroom with general lighting with nine Zora Beta 1x49 W ref. 28275, LOR 88.1 %, circuit watts 56 W and three Lento 1x8 W ref. 19842, LOR 85 %, circuit watts W.

Part L luminaire-lumens/circuit watt calculation 6.4 (incorporating LB control factor).


Absence control.



Wtotal 61 kWh/year

LENIsub-area 11.1*


A classroom with general lighting consisting of nine pendant T5-lumi-

naires and picture lighting with three T5 luminaires. We have planned

a general lighting system with 500 lux on the work plane.

Daylight control and constant lighting control are integrated in one of

luminaires in each row of luminaires and this controls the other lumi-

naires in the same row. The room is equipped with a central absence

control.

During the entire usage time which is normally 0 years for a light-

ing installation, light control represents a saving of in total 60 kWh

compared with the same room with manual On/Off control during the

sameperiod.

Wtotal with traditional manual On/Off control is calculated to 98

kWh/year. The saving here will be %.


11

Example School corridor 1 x 1.8 m without daylight LightingplanningIn accordance with the European standard for lighting indoor workplaces EN 1464-1 and the UK lighting guide LG.

Average illuminance in operation 100 lux on the floor.

LightingsolutionA corridor without daylight and general lighting with seven Sektor 1x8 W ref. 17402, LOR %, circuit watts W.


Controlsystem Constant light control.

Presence dimming.



Wtotal 9 kWh/year

LENIsub-area .9 *


Example School corridor 1 x 1.8 m with daylight LightingplanningIn accordance with the European standard for lighting indoor workplaces EN 1464-1 and the UK lighting guide LG.

Average illuminance in operation 100 lux on the floor.

LightingsolutionA corridor with with daylight and general lighting with seven Sektor 1x8 W ref. 17402, LOR %, circuit watts W.



Presence dimming.



Wtotal 145 kWh/year

LENIsub-area .8*

*The LENI number is normally an indicator for the whole buildings energy ef-ficiency. The value has been broken down to a sub-area for comparison between different sub-areas.

A corridor with general lighting consisting of seven T5 lumin-

aires. Sensor for daylight control and constant light control

centrally placed and three presence sensors (one at each end

and one in the middle of the corridor).



total 06 kWh compared with the same corridor where the

lighting is on during the whole usage time via time control.


to 05 kWh/year. Control in this instance gives a saving of 5 %.

A corridor with general lighting consisting of seven T5

luminaires. Constant light control sensor centrally placed and

three presence sensors (one at each end and one in the mid-

dle of the corridor).



total kWh compared with the same corridor where the

lighting is on during the whole usage time via time control.


to 44 kWh/year. Control in this instance gives a saving of %.


1414

Daylight control/Constant light controlDaylight sensor: A light sensor that adapts the lighting output to the amount of daylight (natural light).

Constant light sensor: A light sensor that adapts/corrects the lighting output to the operating value according to /following the retention factor.

Presence controlPresence control switches the lighting on and off automatically. After the last presence detection with max. 15 minutes delay the lighting is automatically turned off.

Absence controlAbsence control prevents the lighting from automatically switching on, on de-tection. Manually switching of the lighting is required. After the last presence detection with max. 15 minutes delay the lighting is automatically switched off.

Presence dimmingPresence dimming switches the lighting automatically on detection. Light dims to a low level, maximum 0 % of the operating value. With a short delay after the last presence detection, for example, from min. max. 15 min., the light is automatically dimmed to the lower level.

Availability of daylight

In the examples on the previous pages the avail-

ability of daylight is shown as in the illustration

to the right. This EN calculation for daylight uses

strong, medium and weak whereas the UK SBEM

software incorporates a continuous spectrum of

daylight.

The availability of daylight divides the room

into different zones. The different zones describe

a specific daylight interval. The zones are divided

by daylight factor: Strong, Medium, Weak or None.

Luminaires located in the stronger zone can utilize

a larger devaluation of the utilization time, which

reduces the total power consumption.

The daylight factor is obtained by making a light

measurement of indoor illuminance and express-

ing the measurement result as a relation to the

outdoor illuminance at the same time.

The formula becomes D(%) = E indoors x 100 / E

outdoors.

1%>D2%>D1%3%>D2%D 3%

Strong Medium Weak None

Example of implementation of prEN 15193

Control

In the examples on the previous pages the different

types of control are shown by symbols. An explana-

tion to the different types of control we have used

is given to the right.

The cellular office below has both daylight/con-

stant light and absence control.

Daylight factor (D)

Example of the zone division within an area with

incident lighting.

Luminaire Cat.No. LampType

Nooflamps

LumenOutput/lamp

CircuitWatts

FileLOR

LuminaireLumens/Watt

AllFive AllFiveClear1x14W 33401 14WT5 1 1200 18 86.7 57.80AllFiveClear1x28W 33403 28WT5 1 2600 33 86.7 68.31AllFiveClear1x35W 33405 35WT5 1 3300 40 86.7 71.53AllFiveClear1x49W 33407 49WT5 1 4300 56 86.7 66.57AllFiveClear2x14W 33402 14WT5 2 1200 32 76.9 57.68AllFiveClear2x28W 33404 28WT5 2 2600 62 76.9 64.50AllFiveClear2x35W 33406 35WT5 2 3300 77 76.9 65.91AllFiveClear2x49W 33408 49WT5 2 4300 111 76.9 59.58AllFiveOpal1x14W 33411 14WT5 1 1200 18 70.6 47.07AllFiveOpal1x28W 33413 28WT5 1 2600 33 70.6 55.62AllFiveOpal1x35W 33415 35WT5 1 3300 40 70.6 58.25AllFiveOpal1x49W 33417 49WT5 1 4300 56 70.6 54.21AllFiveOpal2x14W 33412 14WT5 2 1200 32 62.7 47.03AllFiveOpal2x28W 33414 28WT5 2 2600 62 62.7 52.59AllFiveOpal2x35W 33416 35WT5 2 3300 77 62.7 53.74AllFiveOpal2x49W 33418 49WT5 2 4300 111 62.7 48.58Allround AllroundT8Clear1x36W 33203-45 36WT8 1 3350 37 77.1 69.81AllroundT8Clear1x58W 33205-45 58WT8 1 5200 55 77.1 72.89AllroundT8Clear2x18W 33202-45 18WT8 2 1350 38 76.8 54.57AllroundT8Clear2x36W 33204-45 36WT8 2 3350 70 76.8 73.51AllroundT8Clear2x58W 33206-45 58WT8 2 5200 110 76.8 72.61AllroundT8Opal1x18W 33211-45 18WT8 1 1350 20 68.8 46.44AllroundT8Opal1x36W 33213-45 36WT8 1 3350 37 68.8 62.29AllroundT8Opal1x58W 33215-45 58WT8 1 5200 55 68.8 65.05AllroundT8Opal2x18W 33212-45 18WT8 2 1350 38 69.7 49.52AllroundT8Opal2x36W 33214-45 36WT8 2 3350 70 69.7 66.71AllroundT8Opal2x58W 33216-45 58WT8 2 5200 110 69.7 65.90Basic BasicT51x14W 10801 14WT5 1 1200 18 97 64.67BasicT51x21W 10803 21WT5 1 1900 25 97 73.72BasicT51x28W 10805 28WT5 1 2600 33 97 76.42BasicT51x28W 10815 28WT5 1 2600 33 94.9 74.77BasicT51x35W 10807 35WT5 1 3300 40 97 80.03BasicT51x35W 10817 35WT5 1 3300 40 94.9 78.29BasicT51x49W 10808 49WT5 1 4300 56 97 74.48BasicT52x21W 10823 21WT5 2 1900 46 93.5 77.24BasicT52x28W 10825 28WT5 2 2600 62 93.5 78.42BasicT52x35W 10827 35WT5 2 3300 77 93.5 80.14BasicT52x49W 10828 49WT5 2 4300 111 93.5 72.44BasicT81x18W 10200-46 18WT8 1 1350 20 94.2 63.59BasicT81x36W 10201-46 36WT8 1 3350 37 94.2 85.29BasicT81x58W 10202-46 58WT8 1 5200 55 94.2 89.06BasicT82x18W 10203-46 18WT8 2 1350 38 93.5 66.43BasicT82x36W 10204-46 36WT8 2 3350 70 93.5 89.49BasicT82x58W 10205-46 58WT8 2 5200 110 93.5 88.40Bergamo BergamoSymmetric 3441 26WFSM 1 1800 26 52.9 36.62BergamoSymmetric32W 3444 32WFSM 1 2400 35 52.9 36.27BergamoWW1x18Wasy 3420 18WFSQ 1 1200 18 60.8 40.53BergamoWW1x26Wasy 3421 32WFSQ 1 1800 26 60.8 42.09Book Book1x14W 208510 14WT5 1 1200 18 89.3 59.53Book1x21W 208511 21WT5 1 1900 25 89.3 67.87Closs ClossBeta1x21W 26603 21WT5 1 1900 25 84.2 63.99ClossBeta1x28W 26605 28WT5 1 2600 33 84.2 66.34ClossBeta1x28W 26645 28WT5 1 2600 33 88.1 69.41ClossBeta1x35W 26607 35WT5 1 3300 40 84.2 69.47ClossBeta1x35W 26647 35WT5 1 3300 40 88.1 72.68ClossBeta1x49W 26615 49WT5 1 4300 56 84.2 64.65ClossBeta1x49W 26655 49WT5 1 4300 56 88.1 67.65ClossBeta1x54W 26613 54WT5 1 4450 61 84.2 61.42ClossBeta1x54W 26653 54WT5 1 4450 61 88.1 64.27ClossBeta1x80W 26617 80WT5 1 6150 86 84.2 60.21ClossBeta1x80W 26657 80WT5 1 6150 86 88.1 63.00ClossBeta2x14W 26602 14WT5 2 1200 32 72 54.00ClossBeta2x21W 26604 21WT5 2 1900 46 72 59.48ClossBeta2x21W 26644 21WT5 2 1900 46 85.1 70.30ClossBeta2x28W 26606 28WT5 2 2600 62 72 60.39ClossBeta2x28W 26646 28WT5 2 2600 62 85.1 71.37ClossBeta2x35W 26608 35WT5 2 3300 77 72 61.71ClossBeta2x35W 26648 35WT5 2 3300 77 85.1 72.94ClossBeta2x49W 26616 49WT5 2 4300 111 72 55.78ClossBeta2x49W 26656 49WT5 2 4300 111 85.1 65.93ClossBeta2x54W 26614 54WT5 2 4450 118 72 54.31ClossBeta2x54W 26654 54WT5 2 4450 118 85.1 64.19ClossBeta2x80W 26618 80WT5 2 6150 172 72 51.49ClossBeta2x80W 26658 80WT5 2 6150 172 85.1 60.86ClossTerazza1x28W 26685 28WT5 1 2600 33 71 55.94ClossTerazza1x28W 26725 28WT5 1 2600 33 77.5 61.06ClossTerazza1x35W 26687 35WT5 1 3300 40 71 58.58


Nooflamps

LumenOutput/lamp

CircuitWatts

FileLOR


ClossTerazza1x35W 26727 35WT5 1 3300 40 77.5 63.94ClossTerazza1x49W 26695 49WT5 1 4300 56 71 54.52ClossTerazza1x49W 26735 49WT5 1 4300 56 77.5 59.51ClossTerazza1x54W 26693 54WT5 1 4450 61 71 51.80ClossTerazza1x54W 26733 54WT5 1 4450 61 77.5 56.54ClossTerazza1x80W 26697 80WT5 1 6150 86 71 50.77ClossTerazza1x80W 26737 80WT5 1 6150 86 77.5 55.42ClossTerazza2x28W 26686 28WT5 2 2600 62 58.7 49.23ClossTerazza2x28W 26726 28WT5 2 2600 62 76.6 64.25ClossTerazza2x35W 26688 35WT5 2 3300 77 58.7 50.31ClossTerazza2x35W 26728 35WT5 2 3300 77 76.6 65.66ClossTerazza2x49W 26696 49WT5 2 4150 111 58.7 43.89ClossTerazza2x49W 26736 49WT5 2 4300 111 76.6 59.35ClossTerazza2x54W 26694 54WT5 2 4450 118 58.7 44.27ClossTerazza2x54W 26734 54WT5 2 4450 118 76.6 57.77ClossTerazza2x80W 26698 80WT5 2 6150 172 58.7 41.98ClossTerazza2x80W 26738 80WT5 2 6150 172 76.6 54.78CombiFive CombiFiveBeta1x14W 27500 14WT5 1 1200 18 89.8 59.87CombiFiveBeta1x28W 27510 28WT5 1 2600 33 89.8 70.75CombiFiveBeta1x28W 27555 28WT5 1 2600 33 85.2 67.13CombiFiveBeta1x28Wasym 27610 28WT5 1 2600 33 76.1 59.96CombiFiveBeta1x28Wasym 27655 28WT5 1 2600 33 80.3 63.27CombiFiveBeta1x35W 27515 35WT5 1 3300 40 89.8 74.09CombiFiveBeta1x35W 27560 35WT5 1 3300 40 85.2 70.29CombiFiveBeta1x35Wasym 27615 35WT5 1 3300 40 76.1 62.78CombiFiveBeta1x35Wasym 27660 35WT5 1 3300 40 80.3 66.25CombiFiveBeta1x49W 27530 49WT5 1 4300 56 89.8 68.95CombiFiveBeta1x49W 27575 49WT5 1 4300 56 85.2 65.42CombiFiveBeta1x49Wasym 27630 49WT5 1 4300 56 76.1 58.43CombiFiveBeta1x49Wasym 27675 49WT5 1 4300 56 80.3 61.66CombiFiveBeta2x14W 27501 14WT5 2 1200 32 80.7 60.53CombiFiveBeta2x28W 27511 28WT5 2 2600 62 80.7 67.68CombiFiveBeta2x28W 27556 28WT5 2 2600 62 87.1 73.05CombiFiveBeta2x28Wasym 27611 28WT5 2 2600 62 74.3 62.32CombiFiveBeta2x28Wasym 27656 28WT5 2 2600 62 82.8 69.45CombiFiveBeta2x35W 27516 35WT5 2 3300 77 80.7 69.17CombiFiveBeta2x35W 27561 35WT5 2 3300 77 87.1 74.66CombiFiveBeta2x35Wasym 27616 35WT5 2 3300 77 74.3 63.69CombiFiveBeta2x35Wasym 27661 35WT5 2 3300 77 82.8 70.97CombiFiveBeta2x49W 27531 49WT5 2 4300 111 80.7 62.52CombiFiveBeta2x49W 27576 49WT5 2 4300 111 87.1 67.48CombiFiveBeta2x49Wasym 27631 49WT5 2 4300 111 74.3 57.57CombiFiveBeta2x49Wasym 27676 49WT5 2 4300 111 82.8 64.15CombiFiveBeta3X14W 27502 14WT5 3 1200 50 89.8 64.66CombiFiveBeta4x14W 27503 14WT5 4 1200 64 80.7 60.53CombiFiveTerazza1x14W 27200 14WT5 1 1200 18 74.9 49.93CombiFiveTerazza1x28W 27210 28WT5 1 2600 33 74.9 59.01CombiFiveTerazza1x28W 27255 28WT5 1 2600 33 79.9 62.95CombiFiveTerazza1x28Wasym 27310 28WT5 1 2600 33 69.8 54.99CombiFiveTerazza1x28Wasym 27355 28WT5 1 2600 33 73.3 57.75CombiFiveTerazza1x35W 27215 35WT5 1 3300 40 74.9 61.79CombiFiveTerazza1x35W 27260 35WT5 1 3300 40 79.9 65.92CombiFiveTerazza1x35Wasym 27315 35WT5 1 3300 40 69.8 57.59CombiFiveTerazza1x35Wasym 27360 35WT5 1 3300 40 73.3 60.47CombiFiveTerazza1x49W 27230 49WT5 1 4300 56 74.9 57.51CombiFiveTerazza1x49W 27275 49WT5 1 4300 56 79.9 61.35CombiFiveTerazza1x49Wasym 27330 49WT5 1 4300 56 69.8 53.60CombiFiveTerazza1x49Wasym 27375 49WT5 1 4300 56 73.3 56.28CombiFiveTerazza2x14W 27201 14WT5 2 1200 32 71.3 53.48CombiFiveTerazza2x28W 27211 28WT5 2 2600 62 71.3 59.80CombiFiveTerazza2x28W 27256 28WT5 2 2600 62 81.1 68.02CombiFiveTerazza2x28Wasym 27311 28WT5 2 2600 62 67.6 56.70CombiFiveTerazza2x28Wasym 27356 28WT5 2 2600 62 76.6 64.25CombiFiveTerazza2x35W 27216 35WT5 2 3300 77 71.3 61.11CombiFiveTerazza2x35W 27261 35WT5 2 3300 77 81.1 69.51CombiFiveTerazza2x35Wasym 27316 35WT5 2 3300 77 67.6 57.94CombiFiveTerazza2x35Wasym 27361 35WT5 2 3300 77 76.6 65.66CombiFiveTerazza2x49W 27231 49WT5 2 4300 111 74.9 58.03CombiFiveTerazza2x49W 27276 49WT5 2 4300 111 81.1 62.83CombiFiveTerazza2x49Wasym 27331 49WT5 2 4300 111 67.6 52.37CombiFiveTerazza2x49Wasym 27376 49WT5 2 4300 111 76.6 59.35CombiFiveTerazza3x14W 27202 14WT5 3 1200 50 74.9 53.93CombiFiveTerazza4x14W 27203 14WT5 4 1200 64 77.7 58.28Combiform CombiformBeta1x14W 20430 14WT5 1 1200 18 87.2 58.13CombiformBeta1x28W 20432 28WT5 1 2600 33 87.2 68.70CombiformBeta1x28W 20462 28WT5 1 2600 33 90 70.91CombiformBeta1x35W 20434 35WT5 1 3300 40 87.2 71.94CombiformBeta1x35W 20464 35WT5 1 3300 40 90 74.25CombiformBeta1x49W 20436 49WT5 1 4300 56 87.2 66.96CombiformBeta1x49W 20466 49WT5 1 4300 56 90 69.11CombiformBeta2x14W 20431 14WT5 2 1200 32 87.8 65.85


Nooflamps

LumenOutput/lamp

CircuitWatts

FileLOR


CombiformBeta2x28W 20433 28WT5 2 2600 62 87.8 73.64CombiformBeta2x28W 20463 28WT5 2 2600 62 93.1 78.08CombiformBeta2x35W 20435 35WT5 2 3300 77 87.8 75.26CombiformBeta2x35W 20465 35WT5 2 3300 77 93.1 79.80CombiformBeta2x49W 20437 49WT5 2 4300 111 87.8 68.03CombiformBeta2x49W 20467 49WT5 2 4300 111 93.1 72.13CombiformClassBeta1X28W 20311 28WT5 1 2600 33 91.7 72.25CombiformClassBeta1X35W 20312 35WT5 1 3300 40 91.7 75.65CombiformClassBeta1X80W 20319 80WT5 1 6150 86 99.6 71.23CombiformClassBeta2x28W 20315 28WT5 2 2600 62 90.9 76.24CombiformClassBeta2x35W 20316 35WT5 2 3300 77 90.9 77.91Combilume CombilumeFSDBeta1x36W 10269-44 36WFSD 1 2900 38 60.9 46.48CombilumeFSDBeta1x36Wasym 10284-44 36WFSD 1 2900 38 51.5 39.30CombilumeFSDBeta2x18W 10266-44 18WFSD 2 1200 20 54.1 64.92CombilumeFSDBeta2x24W 10267-44 24WFSD 2 1800 52 59.3 41.05CombilumeFSDBeta2x36T*WTandem 10270-44 36WFSD 2 2900 75 60.9 47.10CombilumeFSDBeta2x36T*WasymTandem 10285-44 36WFSD 2 2900 75 51.5 39.83CombilumeFSDBeta2x36W 10271-44 36WFSD 2 2900 75 57.4 44.39CombilumeFSDBeta3x24W 10268-44 24WFSD 3 1800 78 61.5 42.58CombilumeFSDBeta3x36W 10272-44 36WFSD 3 2900 113 61.5 47.35CombilumeFSDBeta3x40W 10273 40WFSD 3 3500 131 63.5 50.90CombilumeFSDTerazza2x18W 10251-44 18WFSD 2 1200 20 59.8 71.76CombilumeFSDTerazza2x24W 10252-44 24WFSD 2 1800 52 67.4 46.66CombilumeFSDTerazza3x24W 10253-44 24WFSD 3 1800 78 58.5 40.50CombilumeFSDTerazza3x36W 10257-44 36WFSD 3 2900 113 65.5 50.43CombilumeFSDTerazza3x40W 10258 40WFSD 3 3500 131 69.3 55.55Como Como24WAsymGrey 60011 24WT5 1 1750 28 53.6 33.50Como24WAsymWhite 62011 24WT5 1 1750 28 77.7 48.56Como24WGrey 60009 24WT5 1 1750 28 53.9 33.69Como24WWhite 62009 24WT5 1 1750 28 80.4 50.25Como28WAsymGrey 60002 28WT5 1 2600 33 53.6 42.23Como28WGrey 60000 28WT5 1 2600 33 53.9 42.47Como2x14WGrey 60007 14WT5 2 1200 32 71.7 53.78Como2X14WWhite 62007 14WT5 2 1200 32 87.7 65.78Como2x24WGrey 60010 24WT5 2 1750 51 49.6 34.04Como2x24WWhite 62010 24WT5 2 1750 51 71.7 49.21Como2x54WGrey 60004 54WT5 2 4450 118 49.6 37.41Como2x54WWhite 62004 54WT5 2 4450 118 71.7 54.08Como54WAsymGrey 60005 54WT5 1 4450 61 53.6 39.10Como54WAsymWhite 62005 54WT5 1 4450 61 77.7 56.68Como54WGrey 60003 54WT5 1 4450 61 53.9 39.32Como54WWhite 62003 54WT5 1 4450 61 80.4 58.65Densus Densus1X18W 34200-10 18WT8 1 1350 20 85.9 57.98Densus1X28W 34206 28WT5 1 2600 33 89.3 70.36Densus1X35W 34208 35WT5 1 3300 40 89.3 73.67Densus1X36W 34202-10 36WT5 1 3350 37 85.9 77.77Densus1X49W 34210 49WT5 1 4300 56 82.9 63.66Densus1X58W 34204-10 58WT8 1 5200 55 75.4 71.29Densus2X28W 34207 28WT8 2 2600 62 79.3 66.51Densus2X35W 34209 35WT5 2 3300 77 79.3 67.97Densus2X49W 34211 49WT5 2 4300 111 79.3 61.44DensusT82x18W 34201-10 18WT8 2 1350 38 75.9 53.93DensusT82x36W 34203-10 36WT8 2 3350 70 75.9 72.65DensusT82x58W 34205-10 58WT8 2 5200 110 75.9 71.76Discovery Discovery 56530 75WIAA 1 960 75 69.6 8.91DiscoveryClassII1x18W 56553-85 18WFSQ 1 1200 18 52 34.67DiscoverySpace1x22W 56601 22WFSQ 1 1800 25 52.5 37.80DiscoverySpace1x28W 56625 28WFSS 1 2050 34 52.5 31.65DiscoverySpace2x13W 56602 13WFSQ 2 900 28 39 25.07DiscoverySpace2x18W 56603 18WFSQ 2 1200 38 39 24.63DiscoverySpace2x26W 56604 26WFSQ 2 1800 54 36.5 24.33Dome DomeAcryl 53641 70WMT 1 6600 79 79 66.00Domeacryl 53642 150WMT 1 14000 163 79 67.85Dome1x150W 53638 150WMT 1 14000 163 82.3 70.69DomeAlu70W 53636 70WMT 1 6600 79 82.3 68.76Domealuminiumreflectorwithglass150W 53622 150WHEGT 1 2100 150 81.5 11.41Domealuminiumreflectorwithglass150W 53649 150WMT 1 14000 163 72.5 62.27Domealuminiumreflectorwithglass26W 53602 26WFSM 1 1800 26 104.8 72.55Domealuminiumreflectorwithglass70W 53637 70WMT 1 6600 79 72.5 60.57Domealuminiumreflectorwithglass70W 53647 70WMT 1 6600 79 72.5 60.57Domewithaluminiumreflector150W-MT 53639 150WMT 1 14000 163 79.1 67.94Domewithacrylicshade150W 53623 150WHEGT 1 2100 150 88.7 12.42Domewithacrylicshade150W 53644 150WMT 1 14000 163 79 67.85Domewithacrylicshade26W 53603 26WFSM 1 1800 26 93.7 64.87Domewithacrylicshade32W 53608 32WFSM 1 2400 35 86.9 59.59Domewithacrylicshade42W 53613 42WFSM 1 3200 46 86.9 60.45Domewithacrylicshade55W 53653 55WQL 1 3500 55 94 59.82Domewithacrylicshade70W 53643 70WMT 1 6600 79 79 66.00


Nooflamps

LumenOutput/lamp

CircuitWatts

FileLOR


Domewithacrylicshade85W 53658 85WQL 1 6000 85 94 66.35Domewithaluminiumreflector100W 53631 100WSTH 1 5000 110 78.6 35.73Domewithaluminiumreflector150W 53621 150WHEGT 1 2100 150 82.7 11.58Domewithaluminiumreflector150W 53648 150WMT 1 14000 163 82.3 70.69Domewithaluminiumreflector26W 53601 26WFSM 1 1800 26 105.3 72.90Domewithaluminiumreflector32W 53606 32WFSM 1 2400 35 79 54.17Domewithaluminiumreflector42W 53611 42WFSM 1 3200 46 79.6 55.37Domewithaluminiumreflector50W 53626 50WSTH 1 2300 62 78.6 29.16Domewithaluminiumreflector55W 53651 55WQL 1 3500 55 83.1 52.88Domewithaluminiumreflector70W 53646 70WMT 1 6600 79 82.3 68.76Domewithaluminiumreflector85W 53656 85WQL 1 6000 85 83.1 58.66Easy Easy35W38deg 76940_38 35WHRGI 1 650 35 99.8 18.53Easy3050W38deg 76942_38 50WHRGI 1 950 50 99.8 18.96Easy9050W38deg 76946_38 50WHRGI 1 950 50 99.8 18.96Enter EnterCirk.100WSDW-TG 76855 100WSDW 1 4900 110 57.7 25.70EnterCirk.35WMT 76850 35WMT 1 3300 43 58.3 44.74EnterCirk.35WMT-C7 76852 35WMT-C 1 3300 43 66.7 51.19EnterCirk.50SDW-TG 76854 50WSDW 1 2400 62 57.7 22.34EnterCirk.70WMT 76851 70WMT 1 6600 79 58.3 48.71EnterCirk.70WMT-C7 76853 70WMT-C 1 6400 79 66.7 54.04EnterRekt.150WMT-D 76822 150WMT 1 13200 163 92.6 74.99EnterRekt.70WMT-D 76870 70WMT 1 6500 79 92.6 76.19EnterRekt.100WSDW-T 76873 100WSDW 1 5000 110 72.3 32.86EnterRekt.50WSDW-T 76872 50WSDW 1 2300 62 72.3 26.82Excis Excis2x49Wasym 18363 49WT5 2 4300 111 81.8 63.38Excis2x49Wmedium 18353 49WT5 2 4300 111 82.6 64.00Excis4X49Wasym 18366 49WT5 4 4300 222 75.6 58.57Excis4x49Wasym 18346_as 49WT5 4 4300 222 70.4 54.54Excis4X49Wmedium 18356 49WT5 4 4300 222 72.8 56.40Excis4X49Wwide 18346 49WT5 4 4300 222 75.4 58.42Excis4x54Wasym 18361 54WT5 4 4450 236 70.4 53.10Excis4x54Wmedium 18351 54WT5 4 4450 236 67.2 50.68Excis4x80Wasym 18367 80WT5 4 6150 344 70.4 50.34Excis4x80Wmedium 18357 80WT5 4 6150 344 69 49.34Fovea Fovea85/1549W 3653 49WT5 1 4300 56 91.8 70.49Fovea85/1554W 3652 54WT5 1 4450 61 91.8 66.97Fovea85/1580W 3654 80WT5 1 6150 86 91.8 65.65FoveaII1x28W0/100sym 3678 28WT5 1 2600 33 50.3 39.63FoveaII1x28W50/50 3666 28WT5 1 2600 33 74.4 58.62FoveaII1x35W50/50 3667 35WT5 1 3300 40 74.4 61.38FoveaII1x49W0/100sym 3680 49WT5 1 4300 56 50.3 38.62FoveaII1x49W50/50 3668 49WT5 1 4300 56 74.4 57.13FoveaII1x54W0/100sym 3681 54WT5 1 4450 61 50.3 36.69FoveaII1x54W50/50 3669 54WT5 1 4450 61 74.4 54.28FoveaII28W0/100asy 3686 28WT5 1 2900 33 43.9 38.58FoveaII2x28W 3670 28WT5 2 2600 62 77.7 65.17FoveaII2x35W70/30 3671 35WT5 2 3300 77 77.7 66.60FoveaII2x35W70/30 3675 35WT5 2 3300 40 77.7 128.21FoveaII2x49W70/30 3676 49WT5 2 4300 111 77.7 60.20FoveaII2x49W70/30 3672 49WT5 2 4300 111 77.7 60.20FoveaII2x54WSwitchdi 3642 54WT5 2 4450 118 77.7 58.60FoveaII35W0/100asy 3687 35WT5 1 3300 40 43.9 36.22FoveaII49W0/100asy 3688 49WT5 1 4300 56 43.9 33.71FoveaIIsys2x49W70/30 2363 49WT5 2 4300 111 77.7 60.20FoveaPinspot50W38deg PINSPO3 50WHRGI 1 950 50 96.3 18.30Foveall1x80W50/50 3645 80WT5 1 6150 86 74.4 53.20Globia Globia100W 53450 100WIAA 1 1380 100 81.3 11.22Globia150W 53451 150WIAA 1 2220 150 81.3 12.03Globia18W 53452 18WFSM 1 1200 18 81.3 54.20Globia26W 53453 26WFSM 1 1800 26 81.3 56.28Globia26W 53454 26WFSM 1 1800 26 87.9 60.85Globia26W 53455 26WFSM 1 1800 26 63.9 44.24Globia32W 53456 32WFSM 1 2400 35 82.2 56.37Globia32W 53457 32WFSM 1 2400 35 81.3 55.75Globia32W 53458 32WFSM 1 2400 35 79.2 54.31Globia32W 53459 32WFSM 1 2400 35 79.2 54.31Globia42W 53460 42WFSM 1 3200 46 81.3 56.56Globia42W 53461 42WFSM 1 3200 46 81.3 56.56Gondol Gondol1x54W 17245 54WT5 2 4450 118 80.4 60.64Gondol2x24W 17244 24WT5 2 1750 51 69.2 47.49Gondol2x54W 17246 54WT5 2 4450 118 80.4 60.64GondolT51x28W 17631 28WT5 1 2600 33 80.4 63.35GondolT51x35W 17632 35WT5 1 3300 40 80.4 66.33GondolT51x49W 17634 49WT5 1 4300 56 80.4 61.74GondolT51x54W 17635 54WT5 1 4450 61 80.4 58.65GondolT51x80W 17636 80WT5 1 6150 86 80.4 57.50


Nooflamps

LumenOutput/lamp

CircuitWatts

FileLOR


IndigoIndigoCash2*28W 44036 28WT5 2 2600 62 93.2 78.17IndigoCircleGlas26W 24474 26WFSM 1 1800 26 60.3 41.75IndigoCircleGlas32W 24475 32WFSM 1 2400 35 73.4 50.33IndigoCircleReflector26W 24470 26WFSM 1 1800 26 36.5 25.27IndigoCircleReflector26W 24472 26WFSM 1 1800 26 52.3 36.21IndigoCircleReflector32W 24471 32WFSM 1 2400 35 56.6 38.81IndigoCircleReflector32W 24473 32WF 1 2400 35 71.8 49.23IndigoClivus1X24WT5 24483 24WT5 1 1750 28 93.9 58.69IndigoClivus1X28WT5 24485 28WT5 1 2600 33 80.2 63.19IndigoClivus1X54WT5 24487 54WT5 1 4450 61 80.2 58.51IndigoClivus2X14WT5 24482 14WT5 2 1200 32 88.1 66.08IndigoClivus2X24WT5 24484 24WT5 2 1750 51 88.1 60.46IndigoClivus2X28WT5 24486 28WT5 2 2600 62 76.7 64.33IndigoClivus2X54WT5 24488 54WT5 2 4450 118 76.7 57.85IndigoCombo1X28W1cell+lineddiffuser 24855pri 28WT5 1 2600 33 82.7 65.16IndigoCombo1X28W1cell+lineddiffuser 24871pri 28WT5 1 2600 33 88.3 69.57IndigoCombo1X28W1cell+perforateddiffuser 24855per 28WT5 1 2600 33 76.1 59.96IndigoCombo1X28W1cell+perforateddiffuser 24871per 28WT5 1 2600 33 80.7 63.58IndigoCombo1X54W1cell+lineddiffuser 24857pri 54WT5 1 4450 61 82.7 60.33IndigoCombo1X54W1cell+lineddiffuser 24873pri 54WT5 1 4450 61 88.3 64.42IndigoCombo1X54W1cell+perforateddiffuser 24857per 54WT5 1 4450 61 76.1 55.52IndigoCombo1X54W1cell+perforateddiffuser 24873per 54WT5 1 4450 61 80.7 58.87IndigoCombo2X14W1cell+perforateddiffuser 24862per 14WT5 2 1200 32 68.9 51.68IndigoCombo2X14W1cell+lineddiffuser 24862pri 14WT5 2 1200 32 74.3 55.73IndigoCombo2X1x282cell+perforateddiffuser 24875per 28WT5 2 2600 62 76.5 64.16IndigoCombo2X1x28W2cell+lineddiffuser 24875pri 28WT5 2 2600 62 81.3 68.19IndigoCombo2X1x54W2cell+lineddiffuser 24877pri 54WT5 2 4450 118 81.3 61.32IndigoCombo2X1x54W2cell+perforateddiffuser 24877per 54WT5 2 4450 118 76.5 57.70IndigoCombo2X24W1cell+perforateddiffuser 24864per 24WT5 2 1750 51 68.9 47.28IndigoCombo2X24W1cell+lineddiffuser 24864pri 24WT5 2 1750 51 74.3 50.99Indigocombo2X28W1cell+lineddiffuser 24856pri 28WT5 2 2600 62 69.8 58.54Indigocombo2X28W1cell+lineddiffuser 24872pri 28WT5 2 2600 62 74 62.06Indigocombo2X28W1cell+perforateddiffuser 24856per 28WT5 2 2600 62 65.4 54.85IndigoCombo2X28W1cell+perforateddiffuser 24872per 28WT5 2 2600 62 80.7 67.68Indigocombo2X2x14W2cell+perforateddiffuser 24866per 14WT5 4 1200 64 68.2 51.15Indigocombo2X2X14W2cell+lineddiffuser 24866pri 14WT5 4 1200 64 74.6 55.95IndigoCombo2x2x24W2cell+perforateddiffuser 24868per 24WT5 4 1750 102 70.8 48.59IndigoCombo2x2x24W2cell+lineddiffuser 24868pri 24WT5 4 1750 102 73.7 50.58IndigoDual2X24W600*600 24543 24WT5 2 1750 51 79 54.22IndigoDual1X28W1200X300 24544 28WT5 1 2600 33 93.3 73.51IndigoDual1X28W1200x600 24548 28WT5 1 2600 33 88.5 69.73IndigoDual1X54W1200x600 24550 54WT5 1 4450 61 88.5 64.56IndigoDual1X54W300X1200 24546 54WT5 1 4450 61 90.1 65.73IndigoDual2X14W600X600 24541 14WT5 2 1200 32 79.6 59.70IndigoDual2X28W1200X300 24545 28WT5 2 2600 62 87.3 73.22IndigoDual2X28W1200X600 24549 28WT5 2 2600 62 85.8 71.96IndigoDual2X54W600X1200 24551 54WT5 2 4450 118 78.9 59.51IndigoEd2R1 24641 14WT5 2 1200 32 67.8 50.85IndigoEd2R1 24647 55WFSD 1 4800 61 65.6 51.62IndigoEd2R1 24703 24WT5 2 1750 51 79.4 54.49IndigoEd2R1 24707 55WFSD 1 4800 61 75.9 59.72IndigoEd2R1 24743 24WT5 2 1750 51 79.5 54.56IndigoEd2R1 24747 55WFSD 1 4800 61 77.7 61.14IndigoEd2R1BetaWingPerfo1x36W 24725 36WFSD 1 3350 37 75.9 68.72IndigoEd2R1BetaWingperfo1x40W 24726 40WFSD 1 3500 44 75.9 60.38IndigoEd2R1BetaWingperfo1x55W 24727 55WFSD 1 4800 61 75.9 59.72IndigoEd2R1BetaWingperfo2x14W 24701 32WT5 2 1200 32 79.4 59.55IndigoEd2R1BetaWingperfo2x24W 24723 24WT5 2 1750 51 79.4 54.49IndigoEd2R1BetaWingslits1x36W 24765 36WFSD 1 3350 37 77.7 70.35IndigoEd2R1BetaWingslits1x40W 24766 40WFSD 1 3500 44 77.7 61.81IndigoEd2R1BetaWingslits1x55W 24767 55WFSD 1 4800 61 77.7 61.14IndigoEd2R1BetaWingslits2x14W 24761 14WT5 2 1200 32 79.5 59.63IndigoEd2R1BetaWingslits2x24W 24763 24WT5 2 1750 51 79.5 54.56IndigoEd2R1Perfo1x36W 24625 36WFSD 1 3350 37 65.5 59.30IndigoEd2R1Perfo1x40W 24606 40WFSD 1 3500 44 65.5 52.10IndigoEd2R1Perfo1x55W 24607 55WFSD 1 4800 61 65.5 51.54IndigoEd2R1Perfo2x14W 24601 14WT5 2 1200 32 68.5 51.38IndigoEd2R1Perfo2x24W 24603 24WT5 2 1750 51 68.5 47.01IndigoEd2R1Perfo2x24WHB 24623 24WT5 2 1750 51 68.5 47.01IndigoEd2R1Slits2x14W 24661 14WT5 2 1200 32 67.8 50.85IndigoEd2R1Slits2x24W 24663 24WT5 2 1750 51 67.8 46.53IndigoEd2R1Slits1x36W 24665 36WFSD 1 3350 37 65.6 59.39IndigoEd2R1Slits1x40W 24666 40WFSD 1 3500 44 65.6 52.18IndigoEd2R1Slits1x55W 24667 55WFSD 1 4800 61 65.6 51.62IndigoEd2R2 24561 14WT5 4 1200 64 45.8 34.35IndigoEd2R2 24563 24WT5 4 1750 102 45.8 31.43IndigoEd2R2 24565 40WFSD 2 3500 87 42.8 34.44IndigoEd2R2 24566 55WFSD 2 4800 121 42.8 33.96IndigoEd2R2 24583 24WT5 4 1750 102 47 32.25IndigoEd2R2 24586 40WFSD 2 3500 87 43.7 35.16IndigoEd2R2Perfo2x40W 24575 40WFSD 2 3500 87 42.8 34.44IndigoEd2R2Perfo2x55W 24576 55WFSD 2 4800 121 42.8 33.96


Nooflamps

LumenOutput/lamp

CircuitWatts

FileLOR


IndigoEd2R2Slits2x40W 24595 40WFSD 2 3500 87 43.7 35.16IndigoEd2R2Slits2x55W 24596 55WFSD 2 4800 121 43.7 34.67IndigoEd2R2Slits4x14W 24591 14WT5 4 1200 64 47 35.25IndigoEd2R2Slits4x24W 24593 24WT5 4 1750 102 47 32.25Induline Indulinemediumbeam1x28W 32621 28WT5 1 2600 33 96.5 76.03Indulinemediumbeam1X35W. 32646 35WT5 1 3300 40 100.6 83.00Indulinemediumbeam1x49W. 32671 49WT5 1 4300 56 100.6 77.25Indulinemediumbeam1x54W 32711 54WT5 1 4450 61 96.5 70.40Indulinemediumbeam2x28W 32624 28WT5 2 2600 62 88.5 74.23Indulinemediumbeam2x35W 32649 35WT5 2 3300 77 83.9 71.91Indulinemediumbeam2x49W 32674 49WT5 2 4300 111 83.9 65.00Indulinemediumbeam2x54W 32714 54WT5 2 4450 118 88.5 66.75Indulinemediumbeam2x80W 32694 80WT5 2 6150 172 83.9 60.00Indulux Induluxasym1x36W 32480-46 36WT8 1 3350 37 88.3 79.95Induluxasym1x58W 32482-46 58WT8 1 5200 55 88.3 83.48Induluxmediumbeam1x36W 32440-46 36WT8 1 3350 37 87.7 79.40Induluxmediumbeam1x58W 32442-46 58WT8 1 5200 55 87.7 82.92Induluxmediumbeam2x36W 32441-46 36WT8 2 3350 70 86.9 83.18Induluxmediumbeam2x58W 32443-46 58WT8 2 5200 110 86.9 82.16Induluxmediumbeam3x58W 32444-45 58WT8 3 5200 165 79.4 75.07Isola Isola4x24W 53510 24WFSD 4 1800 104 80.9 56.01Isola4x36W 53511 36WFSD 4 2900 150 80.9 62.56Isola4x36W 53512 36WFSD 4 2900 150 84.8 65.58Isola4x40W 53513 40WFSD 4 3500 172 84.8 69.02Isola4x55W 53514 55WFSD 4 4800 242 84.8 67.28Isolaparabol4x36W 53506 36WFSD 4 2900 150 80.9 62.56Isolaparabol4x36W 53507 36WFSD 4 2900 150 83.2 64.34Isolaparabol4x40W 53508 40WFSD 4 3500 172 84.8 69.02Isolaparabol4x55W 53509 55WFSD 4 4800 242 84.8 67.28Kaptur Kaptur2000polycarbonate1x18W 35110-45 18WT8 1 1350 20 78.7 53.12Kaptur2000polycarbonate1x28W 35130 28WT5 1 2600 33 100.1 78.87Kaptur2000polycarbonate1x35W 35132 35WT5 1 3300 40 100.1 82.58Kaptur2000polycarbonate1x36W 35112-45 36WT8 1 3350 37 78.7 71.26Kaptur2000polycarbonate1x49W 35134 49WT5 1 4515 56 100.1 80.71Kaptur2000polycarbonate1x58W 35114-45 58WT8 1 5200 55 78.7 74.41Kaptur2000polycarbonate2x18W 35111-45 18WT8 2 1350 38 73.2 52.01Kaptur2000polycarbonate2x28W 35131 28WT5 2 2600 62 94.8 79.51Kaptur2000polycarbonate2X35W 35133 35WT5 2 3300 77 85.6 73.37Kaptur2000polycarbonate2x36W 35113-45 36WT8 2 3350 70 73.2 70.06Kaptur2000polycarbonate2X49W 35135 49WT5 2 4300 111 72.6 56.25Kaptur2000polycarbonate2x58W 35115-45 58WT8 2 5200 110 73.2 69.21Lento Lento1X28W 19802 28WT5 1 2600 33 85 66.97Lento1x35W 19803 35WT5 1 3300 40 85 70.13Lento2X1x28W 19820 28WT5 2 2600 62 85 71.29Lento2X1X35W 19821 35WT5 2 3300 77 85 72.86Libraline Libraline1x14W 14600 14WT5 1 1200 18 82.2 54.80Libraline1x21W 14601 21WT5 1 1900 25 82.2 62.47Libraline1x28W 14602 28WT5 1 2600 33 82.2 64.76Libralinedisplay1X21W 14620 21WT5 1 1900 25 87.3 66.35Libralinedisplay2X1X21W 14622 21WT5 2 1900 46 87.3 72.12LibralineDisplayLamell1X21W 14960 21WT5 1 1900 25 69.8 53.05LibralineDisplayLamell2X1X21W 14962 21WT5 2 1900 46 69.8 57.66LoopLight LoopLight 19283dir 28WT5 1 2600 33 65.2 51.37LoopLight 19288dir 28WT5 2 2600 33 55.1 86.82LoopLight1x35Lamell 19044 35WT5 1 3300 40 90.9 74.99LoopLightbeta 19548s 49WT5 2 4300 111 57.1 44.24LoopLightBeta1x28Wdir. 19243dir 28WT5 1 2600 33 62.2 49.01LoopLightBeta1x28Wpri 19243LP 28WT5 1 2600 33 89.6 70.59LoopLightBeta1x35Wdir. 19244dir 35WT5 1 3300 40 62.2 51.32LoopLightBeta1x35Wpri 19244LP 35WT5 1 3300 40 89.6 73.92LoopLightBeta1x49Wdir. 19245dir 49WT5 1 4300 56 62.2 47.76LoopLightBeta1x49Wpri 19245LP 49WT5 1 4300 56 89.6 68.80LoopLightBeta1x80W 19257 80WT5 1 6150 86 92 65.79LoopLightBeta2x14W 19246 14WT5 2 1200 32 92.1 69.08LoopLightBeta2x21W 19247 21WT5 2 1900 46 92.1 76.08LoopLightBeta2x28Wdir 19248dir 28WT5 2 2600 62 57.1 47.89LoopLightBeta2x28Wpri 19248LP 28WT5 2 2600 62 88 73.81LoopLightBeta2x35Wdir 19249dir 35WT5 2 3300 77 57.1 48.94LoopLightBeta2x35Wpri 19249LP 35WT5 2 3300 77 88 75.43LoopLightBeta2x49Wdir 19250dir 49WT5 2 4300 111 57.1 44.24LoopLightBeta2x49Wpri 19250LP 49WT5 2 4300 111 88 68.18LoopLightBeta2x80W 19182 80WT5 2 6150 172 92.1 65.86LoopLightBikaka3x35W 19373 35WT5 3 3300 117 59.3 50.18LoopLightIndirect1x28W 19410 28WT5 1 2600 33 90 70.91LoopLightIndirect1x35W 19411 35WT5 1 3300 40 90 74.25LoopLightIndirect1x49W 19412 49WT5 1 4300 56 90 69.11


Nooflamps

LumenOutput/lamp

CircuitWatts

FileLOR


LoopLightIndirect2x28W 19413 28WT5 2 2600 62 81.6 68.44LoopLightIndirect2x35W 19414 35WT5 2 3300 77 81.6 69.94LoopLightIndirect2x49W 19415 49WT5 2 4300 111 81.6 63.22LoopLightIndirect 19003 28WT5 1 2600 33 90 70.91LoopLightIndirect 19004 35WT5 1 3300 40 90 74.25LoopLightIndirect 19008 28WT5 2 2600 62 81.6 68.44LoopLightIndirect 19009 35WT5 2 3300 77 81.6 69.94LoopLightlamell 19053 35WT5 3 3300 117 60.6 51.28LoopLightlamell 19332_2 28WT5 3 2600 95 62.7 51.48LoopLightLamell1x28W 19323 28WT5 1 2600 33 86.6 68.23LoopLightLamell1x35W 19324 35WT5 1 3300 40 86.6 71.45LoopLightLamell1x80W 19337 80WT5 1 6150 86 86.6 61.93LoopLightLamell2x28W 19328 28WT5 2 2600 62 84 70.45LoopLightLamell2x35W 19329 35WT5 2 3300 77 84 72.00LoopLightLamell2x80W 19186 80WT5 2 6150 172 84 60.07LoopLightLamell3x21W 19331-17 21WT5 3 1900 71 60.6 48.65LoopLightLamell3x28W 19405 28WT5 3 2600 95 60.6 49.76LoopLightLamell3x28W 19332-17 28WT5 3 2600 95 60.6 49.76LoopLightLamell3x35W 19333-17 35WT5 3 3300 117 60.6 51.28LoopLightTerazza 19204+ 28WT5 2 2600 62 80.8 67.77LoopLightTerazza 19204 +94859 35WT5 2 3300 77 80.8 69.26LoopLightTerazza 19204pri 35WT5 2 3300 77 86.1 73.80LoopLightTerazza 19209pri 35WT5 2 3300 77 80.8 69.26LoopLightTerazza1x28Wdir 19203dir 28WT5 1 2600 33 54.7 43.10LoopLightTerazza1x28Wpri 19203LP 28WT5 1 2600 33 82.9 65.32LoopLightTerazza1x35Wdir 19204dir 35WT5 1 3300 40 54.7 45.13LoopLightTerazza1x35Wpri 19204LP 35WT5 1 3300 40 82.9 68.39LoopLightTerazza1x49Wdir 19205dir 49WT5 1 4300 56 54.7 42.00LoopLightTerazza1x49Wpri 19205LP 49WT5 1 4300 56 82.9 63.66LoopLightTerazza1x80W 19217 80WT5 1 6150 86 84.5 60.43LoopLightTerazza2x14W 19206 14WT5 2 1200 32 89.4 67.05LoopLightTerazza2x21W 19207 21WT5 2 1900 46 89.4 73.85LoopLightTerazza2x28Wdir 19208dir 28WT5 2 2600 62 48.8 40.93LoopLightTerazza2x28Wpri 19208LP 28WT5 2 2600 62 82.2 68.94LoopLightTerazza2x35Wdir 19209dir 35WT5 2 3300 77 48.8 41.83LoopLightTerazza2x35Wpri 19209LP 35WT5 2 3300 77 82.2 70.46LoopLightTerazza2x49Wdir 19210dir 49WT5 2 4300 111 48.8 37.81LoopLightTerazza2x49Wpri 19210LP 49WT5 2 4300 111 82.2 63.69LoopLightTerazza2x80W 19180 80WT5 2 6150 172 85.1 60.86LoopLightWall1X28W 19632 28WT5 1 2600 33 67.1 52.87LoopLightWall1X35W 19633 35WT5 1 3300 40 67.1 55.36LoopLightWall2X28W 19652 28WT5 2 2600 62 61.4 51.50LoopLightWall2X35W 19653 35WT5 2 3300 77 61.4 52.63Matros Matrosceiling/wall1x22W 56440 22WT5C 1 1800 25 50.3 36.22Matrosceiling/wall1x22W+1x40W 56441 40WT5C 1 5100 68 39.3 29.48Matrosceiling/wall1x40W 56442 40WT5C 1 3300 43 44.5 34.15Matrospendant1x22W 54460 22WT5C 1 1800 25 60.9 43.85Matrospendant1x22W+1x40W 54461 22WT5C 1 5100 68 44.3 33.23Matrospendant1x40W 54462 40WT5C 1 3300 43 48.1 36.91MultiFive MultiFiveBasic1x28WT5Teraz 25365 28WT5 1 2600 33 69.1 54.44MultiFiveBasic1x28WT5Teraz 27410 28WT5 1 2600 33 69.1 54.44MultiFiveBasic2x28WT5Teraz 25366 28WT5 2 2600 62 66.7 55.94MultiFiveBasic2x28WT5Teraz 27411 28WT5 2 2600 62 66.7 55.94MultiFiveBasicBeta1x14W 25480 14WT5 1 1200 18 87.2 58.13MultiFiveBasicBeta1x14Wasym 25730 14WT5 1 1200 18 76.1 50.73MultiFiveBasicBeta1x14Wasym 25911 14WT5 1 1200 18 76.1 50.73MultiFiveBasicBeta1x28W 25485 28WT5 1 2600 33 87.2 68.70MultiFiveBasicBeta1x28Wasym 25731 28WT5 1 2600 33 76.1 59.96MultiFiveBasicBeta1x28Wasym 25912 28WT5 1 2600 33 76.1 59.96MultiFiveBasicBeta1x35W 25488 35WT5 1 3300 40 87.2 71.94MultiFiveBasicBeta1x35Wasym 25732 35WT5 1 3300 40 76.1 62.78MultiFiveBasicBeta1x35Wasym 25913 35WT5 1 3300 40 76.1 62.78MultiFiveBasicBeta1x49W 25491 49WT5 1 4300 56 87.2 66.96MultiFiveBasicBeta1x49Wasym 25733 49WT5 1 4300 56 76.1 58.43MultiFiveBasicBeta2x14W 25481 14WT5 2 1200 32 80.7 60.53MultiFiveBasicBeta2x14W 25482 14WT5 2 1200 32 87.2 65.40MultiFiveBasicBeta2x28W 25486 28WT5 2 2600 62 80.7 67.68MultiFiveBasicBeta2x28W 25487 28WT5 2 2600 62 87.2 73.14MultiFiveBasicBeta2x35W 25489 35WT5 2 3300 77 80.7 69.17MultiFiveBasicBeta2x35W 25490 35WT5 2 3300 77 87.2 74.74MultiFiveBasicBeta2x49W 25492 49WT5 2 4300 111 80.7 62.52MultiFiveBasicBeta2x49W 25493 49WT5 2 4300 111 87.2 67.56MultiFiveBasicBeta3x14WFDH 25483 14WT5 3 1200 50 83.4 60.05MultiFiveBasicBeta4x14WFDH 25484 14WT5 4 1200 64 83.4 62.55MultiFiveBasicBeta/Terazza1x49Wasym 25914 49WT5 1 4300 56 69.8 53.60MultiFiveBasicTerazza1x14W 25240 14WT5 1 1200 18 74.9 49.93MultiFiveBasicTerazza1x14Wasym 25720 14WT5 1 1200 18 69.8 46.53MultiFiveBasicTerazza1x28W 25245 28WT5 1 2600 33 74.9 59.01MultiFiveBasicTerazza1x28Wasym 25721 28WT5 1 2600 33 69.8 54.99MultiFiveBasicTerazza1x35W 25248 35WT5 1 3300 40 74.9 61.79


Nooflamps

LumenOutput/lamp

CircuitWatts

FileLOR


MultiFiveBasicTerazza1x35Wasym 25722 35WT5 1 3300 40 69.8 57.59MultiFiveBasicTerazza1x49W 25251 49WT5 1 4300 56 74.9 57.51MultiFiveBasicTerazza1x49Wasym 25723 49WT5 1 4300 56 69.8 53.60MultiFiveBasicTerazza2x14W 25241 14WT5 2 1200 32 71.3 53.48MultiFiveBasicTerazza2x14W 25242 14WT5 2 1200 32 74.9 56.18MultiFiveBasicTerazza2x28W 25246 28WT5 2 2600 62 71.3 59.80MultiFiveBasicTerazza2x28W 25247 28WT5 2 2600 62 74.9 62.82MultiFiveBasicTerazza2x35W 25249 35WT5 2 3300 77 71.3 61.11MultiFiveBasicTerazza2x35W 25250 35WT5 2 3300 77 74.9 64.20MultiFiveBasicTerazza2x49W 25252 49WT5 2 4300 111 71.3 55.24MultiFiveBasicTerazza2x49W 25253 49WT5 2 4300 111 74.9 58.03MultiFiveBasicTerazza3x14W 25243 14WT5 3 1200 50 77.8 56.02MultiFiveBasicTerazza4x14W 25244 14WT5 4 1200 64 77.7 58.28MultiFiveBasicTerazzaasy. 25725 14WT5 1 1200 18 69.8 46.53Multilume MultilumeFSD 22781 18WFSD 2 1200 38 70.8 44.72MultilumeFSD 22782 24WFSD 2 1800 26 70.8 98.03MultilumeFSD 22783 24WFSD 3 1800 26 63.3131.47MultilumeFSD 22787 36WFSD 3 2900 113 63.3 48.74MultilumeFSDBeta2x18W 22771-44 18WFSD 2 1200 38 54.1 34.17MultilumeFSDBeta2x24W 22772-44 24WFSD 2 1800 52 60.9 42.16MultilumeFSDBeta3x24W 22773-44 24WFSD 3 1800 78 56.5 39.12MultilumeFSDBeta3x40W 22778 40WFSD 3 3500 131 64.6 51.78MultilumeFSDTerazza2x18W 22761-44 18WFSD 2 1200 38 59.8 37.77MultilumeFSDTerazza2x24W 22762-44 24WFSD 2 1800 51 61.9 43.69MultilumeFSDTerazza3x24W 22763-44 24WFSD 3 1800 79 58.5 39.99MultilumeFSDTerazza3x40W 22768 40WFSD 3 3500 131 65.7 52.66MultilumeHydroBeta2x28W 23042 28WT5 2 2600 62 79 66.26MultilumeHydroBeta2x28W 23044 28WT5 2 2600 62 79 66.26MultilumeHydroBeta2x28W 23047 28WT5 2 2600 62 79 66.26MultilumeHydroBeta2x35W 23043 35WT5 2 3300 77 79 67.71MultilumeHydroBeta2x35W 23048 35WT5 2 3300 77 79 67.71MultilumeHydroBeta3x14W 23040 14WT5 3 1200 50 78 56.16MultilumeHydroBeta3x28W 23045 28WT5 3 2600 95 78 64.04MultilumeHydroBeta4x28W 23046 28WT5 4 2600 124 79.2 66.43MultilumeHydroBeta4x14 23041 14WT5 4 1200 64 80.8 60.60MultilumeModulBeta1x36W 20592-46 36WT8 1 3350 37 70.8 64.10MultilumeModulBeta1x36W 20596-46 36WT8 1 3350 37 69.2 62.65MultilumeModulBeta1x58W 20593-46 58WT8 1 5200 55 70.8 66.94MultilumeModulBeta2x36W 20597-46 36WT8 2 3350 70 66.6 63.75MultilumeModulBeta3x18W 20930-46 18WT8 3 1350 58 65.7 45.88MultilumeModulBeta4x18W 20931-46 18WT8 4 1350 76 63.2 44.91MultilumeModulPrismat1x36W 20524-46 36WT8 1 3350 37 64.7 58.58MultilumeModulPrismat2x36W 20525-46 36WT8 2 3350 70 59.2 56.66MultilumeModulPrismat3x18W 20527-46 18WT8 3 1350 58 63.3 44.20MultilumeModulPrismat4x18W 20528-46 18WT8 4 1350 76 58.5 41.57MultilumeModulTerazza 20538 58WT8 1 5200 55 59.9 56.63MultilumeModulTerazza1x36W 20579-46 36WT8 1 3350 37 62 56.14MultilumeModulTerazza1x36W 20583-46 36WT8 1 3350 37 64.8 58.67MultilumeModulTerazza1x58W 20580-46 58WT8 1 5200 55 59.9 56.63MultilumeModulTerazza2x36W 20584-46 36WT8 2 3350 70 57.7 55.23MultilumeModulTerazza3x18W 20587-46 18WT8 3 1350 58 60.6 42.32MultilumeModulTerazza4x18W 20588-46 18WT8 4 1350 76 56.2 39.93NotorG2 NotorG2Direct1x49WOpal 26774 49WT5 1 4300 56 63.1 48.45NotorG2Direct1x21WLamell 26901 21WT5 1 1900 25 70.8 53.81NotorG2Direct1x21WOpal 26990 21WT5 1 1900 25 65.9 50.08NotorG2Direct1x24WLamell 26902 24WT5 1 1750 28 71.8 44.88NotorG2Direct1x28WLamell 26913 28WT5 1 2600 33 70.8 55.78NotorG2Direct1x28WOpal 26938 28WT5 1 2600 33 65.9 51.92NotorG2Direct1x39WLamell 26905 39WT5 1 3100 45 71.8 49.46NotorG2Direct1x49WLamell 26770 49WT5 1 4300 56 69.4 53.29NotorG2Direct1x54WLamell 26916 54WT5 1 4450 61 71.8 52.38NotorG2Direct1x80WLamell 26907 80WT5 1 6150 86 71.8 51.35NotorG2Direct2x21WLamell 26921 21WT5 2 1900 46 70.8 58.49NotorG2Direct2x21WOpal 26958 21WT5 2 1900 46 65.9 54.44NotorG2Direct2x28WLamell 26923 28WT5 2 2600 62 70.8 59.38NotorG2Direct2x28WOpal 26968 28WT5 2 2600 62 65.9 55.27NotorG2Direct2x35WLamell 26924 35WT5 2 3300 77 70.8 60.69NotorG2Direct2x35WOpal 26978 35WT5 2 3300 77 65.9 56.49NotorG2Direct2x39WLamell 26925 39WT5 2 3100 83 71.8 53.63NotorG2Direct2x49WLamell 26771 49WT5 2 4300 111 69.4 53.77NotorG2Direct2x49WOpal 26775 49WT5 2 4300 111 63.1 48.89NotorG2Direct2x54WLamell 26926 54WT5 2 4450 118 71.8 54.15NotorG2Direct2x80WLamell 26927 80WT5 2 6150 172 71.8 51.35NotorG2Indirect1x21W 26841 21WT5 1 1900 25 64.9 49.32NotorG2Indirect1x24W 26842 24WT5 1 1750 28 63.9 39.94NotorG2Indirect1x28W 26843 28WT5 1 2600 33 64.9 51.13NotorG2Indirect1x39W 26845 39WT5 1 3100 45 63.9 44.02NotorG2Indirect1x49W 26778 49WT5T5 1 4300 56 62.2 47.76NotorG2Indirect1x54W 26846 54WT5 1 4450 61 63.9 46.62NotorG2Indirect1x80W 26847 80WT5T5 1 6150 86 63.9 45.70NotorG2Indirect2x21W 26861 21WT5 2 1900 46 64.9 53.61


Nooflamps

LumenOutput/lamp

CircuitWatts

FileLOR


NotorG2Indirect2x28W 26863 28WT5 2 2600 62 64.9 54.43NotorG2Indirect2x35W 26864 35WT5T5 2 3300 77 64.9 55.63NotorG2Indirect2x39W 26865 39WT5 2 3100 83 63.9 47.73NotorG2Indirect2x49W 26779 49WT5T5 2 4300 111 62.2 48.19NotorG2Indirect2x54W 26866 54WT5 2 4450 118 63.9 48.20NotorG2Indirect2x80W 26867 80WT5T5 2 6150 172 63.9 45.70Orosso Orosso2X21W+2x22W 19901 21WT5+22WT5C 4 1900 100 79.4 60.34Parad ParadFlex10deg20/35/50W 75272_10 20WHRGI 1 320 20 110.5 17.68ParadFlex10deg20/35/50W 75274_10 35WHSG 1 390 35 65.8 7.33ParadFlex12deg20/35/50W 75274_12 20WHSG 1 320 20 110.5 17.68ParadFlex1x20/35/50W 75272 35WHRGI 1 350 35 110.5 11.05ParadFlex1x20/35/50W 75274 35WHSG 1 650 50 73.6 9.57ParadFlex24deg20/35/50W 75274_24 35WHSG 1 390 35 73.6 8.20ParadFlex24deg35W 75272_24 35WHRGI 1 600 35 73.6 12.62ParadFlex30deg20/35/50W 75274_30 20WHSG 1 650 20 73.6 23.92ParadFlex38deg20/35/50W 75272_38 20WHRGI 1 320 20 82.9 13.26ParadFlex38deg20/35/50W 75274_38 35WHSG 1 390 35 69.6 7.76ParadI10deg20/35/50W 75261_10 20WHRGI 1 320 20 65.8 10.53ParadI1x20/35/50W 75261 35WHRGI 1 390 35 65.8 7.33ParadI1x20/35/50W 75261_12 35WHRGI 1 390 35 82.3 9.17ParadI1x20/35/50W 75261_24 35WHRGI 1 390 35 92.3 10.28ParadI1x20/35/50W 75261_38 35WHRGI 1 390 35 96.3 10.73ParadI24deg35W 75261_24 35WHRGI 1 600 35 92.3 15.82ParadI38deg20/35/50W 75261_38 20WHRGI 1 320 20 96.3 15.41ParadII10deg20/35/50 75264_10 20WHRGI 1 320 20 65.8 10.53ParadII1x20/35/50W 75264 35WHSG 1 390 35 77.5 8.64ParadII38deg20/35/50W 75264_38 20WHSG 1 320 20 96.3 15.41ParadII60deg20/35/50W 75264_60 20WHSG 1 350 20 77.5 13.56ParadIII1x20/35/50W 75267 50WHSG 1 950 50 79.3 15.07ParadIII37deg20/35/50W 75267_37 20WHSG 1 350 20 79.3 13.88PhenixPhenix1x80W 4178 80WT5 1 6150 86 93.5 66.86Phenix2X28W 4162 28WT5 2 2600 62 92.3 77.41Phenix2x40W 4251 40WFSD 2 3500 87 72.7 58.49Phenix2X54W 4172 54WT5 2 4450 118 92.3 69.62Pleiad PleiadCompact 76102_1 13WFSQ 1 900 14 59.6 38.31PleiadCompact2X26W 77317 26WFSQ 2 1800 54 54.1 36.07PleiadCompact2X26W 77417 26WFSQ 2 1800 54 54.1 36.07PleiadCompact175 76100 13WFSQ 1 900 14 65 41.79PleiadCompact175 76103 13WFSQ 1 900 14 65 41.79PleiadCompact175 76100ny 13WFSQ 1 900 14 65 41.79PleiadCompact175+Go2bl1x13W 76100_Go2 13WFSQ 1 900 14 46.2 29.70PleiadCompact175+Go2klar1x13W 76100+Go2 13WFSQ 1 900 14 46.2 29.70PleiadCompact175+IP44klar1x13w 76100IP44 13WFSQ 1 900 14 29.7 19.09PleiadCompact175+Go21x13W 76100G2 13WFSQ 1 900 14 46.2 29.70PleiadCompact175+Go21x13W 76100Go2 13WFSQ 1 900 14 46.2 29.70PleiadCompact175+Go21x18W 76120Go2 18WFSQ 1 1200 18 45.2 30.13PleiadCompact175+Opusvit1x13W 76100Opu 13WFSQ 1 900 14 30.1 19.35PleiadCompact175+Opusvit1x18W 76120Opu 18WFSQ 1 1200 18 27.1 18.07PleiadCompact175+Plain1x13w 76100Pl 13WFSQ 1 900 14 29.7 19.09PleiadCompact175+Plain1x18w 76120Pl 18WFSQ 1 1200 18 29.7 19.80PleiadCompact175+Ringlight1x13W 76100RI 13WFSQ 1 900 14 55.5 35.68PleiadCompact175+Ringlight1x18W 76120RI 18WFSQ 1 1200 18 53.1 35.40PleiadCompact175+Turbin1x13W 76100Tu 13WFSQ 1 900 14 39.5 25.39PleiadCompact175+Turbin1x18W 76120TI 18WFSQ 1 1200 18 38.2 25.47PleiadCompact175+Turbin1x18W 76120Tu 18WFSQ 1 1200 18 38.2 25.47PleiadCompact1751x13W 76102 13WFSQ 1 900 14 58 37.29PleiadCompact1751x13w 76100pla 13WFSQ 1 900 14 29.7 19.09PleiadCompact1751x18W 76120 18WFSQ 1 1200 18 62 41.33PleiadCompact1751x18W 76122 18WFSQ 1 1200 18 56 37.33PleiadCompact1751x18w 76120pla 18WFSQ 1 1200 18 29.7 19.80PleiadCompact1x26WAl. 76140tur 26WFSQ 1 1800 26 37 25.62PleiadCompact1x26WBowl 76142bow 26WFSQ 1 1800 26 31.1 21.53PleiadCompact1x26WOpus 76142opu 26WFSQ 1 1800 26 37.9 26.24PleiadCompact1x26WSoft 76142sof 26WFSQ 1 1800 26 40.6 28.11PleiadCompact1x26WStar 76142sta 26WFSQ 1 1800 26 38.3 26.52PleiadCompact215+Bowl1x26W 76140bow 26WFSQ 1 1800 26 31.1 21.53PleiadCompact215+Bowl2x18W 76130bow 18WFSQ 2 1200 38 32 20.21PleiadCompact215+Disc1x26W 76140Dis 26WFSQ 1 1800 26 38.7 26.79PleiadCompact215+Disc2x18W 76130Dis 18WFSQ 2 1200 38 40.2 25.39PleiadCompact215+Go11x26W 76140Go1 26WFSQ 1 1800 26 43.2 29.91PleiadCompact215+Go12x18W 76130Go1 18WFSQ 2 1200 38 46.7 29.49PleiadCompact215+Go21x26W 76140Go2 26WFSQ 1 1800 26 45.6 31.57PleiadCompact215+Go22x18W 76130Go2 18WFSQ 2 1200 38 45.4 28.67PleiadCompact215+Opal 76130OP 18WFSQ 2 1200 38 19.4 12.25PleiadCompact215+Opus1x26W 76140Opu 26WFSQ 1 1800 26 20.3 14.05PleiadCompact215+Opus2x18W 76130Opu 18WFSQ 2 1200 38 19.4 12.25PleiadCompact215+Plain1x26W 76140Pl 26WFSQ 1 1800 26 40 27.69PleiadCompact215+Plain2x18w 76130pla 18WFSQ 2 1200 38 41 25.89PleiadCompact215+Prisma1x26W 76140pri 26WFSQ 1 1800 26 40 27.69


Nooflamps

LumenOutput/lamp

CircuitWatts

FileLOR


PleiadCompact215+Prisma1x26W 76140pri 26WFSQ 1 1800 26 40 27.69PleiadCompact215+Ringlight1x26W 76140RI 26WFSQ 1 1800 26 54.9 38.01PleiadCompact215+Ringlight2x18W 76130RI 18WFSQ 2 1200 38 53.8 33.98PleiadCompact215+Soft2x18w 76132sof 18WFSQ 2 1200 38 38 24.00PleiadCompact215+Star2x18w 76132sta 18WFSQ 2 1200 38 42 26.53PleiadCompact2151x26W 76140-42 26WFSQ 1 1800 26 55.8 38.63PleiadCompact2151x26W 76142-42 26WFSQ 1 1800 26 50 34.62PleiadCompact2152x18W 76130-42 18WFSQ 2 1200 38 56.2 35.49PleiadCompact2152x18w 76130tur 18WFSQ 2 1200 38 38 24.00PleiadCompact2152x18W 76132-42 18WFSQ 2 1200 38 50.4 31.83PleiadCompact2152x18W 76133-42 18WFSQ 2 1200 38 56 35.37PleiadCompact2152x26W 76170-42 26WFSM 2 1800 54 64.3 42.87PleiadCompact215+Hover 76140Hov 26WFSQ 1 1800 26 45 31.15PleiadCompact2451x13w 72300-42 13WFSQ 1 900 14 74.9 48.15PleiadCompact2451x13W 72302-42 13WFSQ 1 900 14 59.6 38.31PleiadCompact2451x13W 72303-42 13WFSQ 1 900 14 69.2 44.49PleiadCompact2451x18W 72320-42 18WFSQ 1 1200 18 60.8 40.53PleiadCompact2451x18W 72322-42 18WFSQ 1 1200 18 49 32.67PleiadCompact2451x18W 72323-42 18WFSQ 1 1200 18 64.2 42.80PleiadCompact255+Hover 76150Hov 26WFSQ 2 1800 54 49.2 32.80PleiadCompact255+Bowl2x26W 76152Bow 26WFSQ 2 1800 54 37 24.67PleiadCompact255+Go12x26W 76150Go1 26WFSQ 2 1800 54 46 30.67PleiadCompact255+Opus2x26W 76152Opu 26WFSQ 2 1800 54 42.6 28.40PleiadCompact255+Plain2x26W 76150pla 26WFSQ 2 1800 54 42.1 28.07PleiadCompact255+Ringlight2x26W 76150RI 26WFSQ 2 1800 54 57.2 38.13PleiadCompact255+Soft2x26W 76152Sof 26WFSQ 2 1800 54 42.5 28.33PleiadCompact255+Star2x26W 76152Sta 26WFSQ 2 1800 54 47.6 31.73PleiadCompact255+Turbin2x26W 76150tur 26WFSQ 2 1800 54 40.3 26.87PleiadCompact2551x32W 76187 32WFSM 1 2400 35 61.3 42.03PleiadCompact2552x26W 76150-42 26WFSQ 2 1800 54 58.7 39.13PleiadCompact2552x26W 76152-42 26WFSQ 2 1800 54 57.1 38.07PleiadCompact2552x26w 76153-42 26WFSQ 2 1800 54 60.7 40.47PleiadCompact2552x32W 76180 32WFSM 2 2400 70 51.8 35.52PleiadCompact2552x42W 72190 42WFSM 2 3200 92 51.8 36.03PleiadCompact2552x42W 76190 42WFSM 2 3200 92 67.5 46.96PleiadCompact2851x26W 72340-42 26WFSQ 1 1800 26 55.8 38.63PleiadCompact2851x26W 72342-42 26WFSQ 1 1800 26 55.7 38.56PleiadCompact2852x18w 72330-42 18WFSQ 2 1200 38 56.2 35.49PleiadCompact2852x18W 72332-42 18WFSQ 2 1200 38 53.1 33.54PleiadCompact2852x18W 72333-42 18WFSQ 2 1200 38 58.1 36.69PleiadCompact2x18w 76130gam 18WFSQ 2 1200 38 32.7 20.65PleiadCompact2x18wbow 76132Bow 18WFSQ 2 1200 38 34 21.47PleiadCompact2x18wOpus 76132opu 18WFSQ 2 1200 38 38 24.00PleiadCompact2x18w+Pri 76130pri 18WFSQ 2 1200 38 34.8 21.98PleiadCompact2X26W 77315 26WFSQ 2 1800 54 64.2 42.80PleiadCompact2X26W 77415 26WFSQ 2 1800 54 64.2 42.80PleiadCompact2x26w 76150gam 26WFSQ 2 1800 54 38 25.33PleiadCompact2x26WBowl 76152bo 26WFSQ 2 1800 54 37 24.67PleiadCompact2x26WGo1 76150g1 26WFSQ 2 1800 54 46 30.67PleiadCompact2x26WHover 76150ho 26WFSQ 2 1800 54 49.2 32.80PleiadCompactG21X18W 77300 18WFSQ 1 1200 18 73.3 48.87PleiadCompactG21X18W 77302 18WFSQ 1 1200 18 60.8 40.53PleiadCompactG21X18W 77400 18WFSQ 1 1200 18 73.3 48.87PleiadCompactG21X18W 77402 18WFSQ 1 1200 18 60.8 40.53PleiadCompactG21X26W 77310 26WFSQ 1 1800 26 69.5 48.12PleiadCompactG21X26W 77312 26WFSQ 1 1800 26 63.8 44.17PleiadCompactG21X26W 77410 26WFSQ 1 1800 26 69.5 48.12PleiadCompactG21X26W 77412 26WFSQ 1 1800 26 63.8 44.17PleiadCompactG22X18W 77305 18WFSQ 2 1200 38 58.3 36.82PleiadCompactG22X18W 77307 18WFSQ 2 1200 38 53.6 33.85PleiadCompactG22X18W 77405 18WFSQ 2 1200 38 58.3 36.82PleiadCompactG22X18W 77407 18WFSQ 2 1200 38 53.6 33.85PleiadcompactPlain 76140pla 26WFSQ 1 1800 26 38.7 26.79PleiadPower 76311 100WSTH 1 4800 110 85.2 37.18PleiadPower100WSTH 76493 100WSTH 1 5000 110 68.1 30.95PleiadPower1251x35W 76475_10 35WMR 1 3300 43 87.5 67.15PleiadPower1251x35W 76475_30 35WMR 1 3300 43 96.1 73.75PleiadPower1751x50W 76491 50WSTH 1 2300 62 85.2 31.61PleiadPower175MT1x150 76486 150WMT 1 14000 163 54.1 46.47PleiadPower175MT1x150 76524 150WMT 1 14000 163 54.1 46.47PleiadPower175MT1x35 76481 35WMT 1 3300 43 67.2 51.57PleiadPower175MT1x35 76522 35WMT 1 3300 43 67.2 51.57PleiadPower175MT1x70 76484 70WMT 1 6600 79 67.2 56.14PleiadPower175MT1x70 76523 70WMT 1 6600 79 67.2 56.14PleiadPower70WCDM-R1 76401-10 70WCDM-R 1 4500 79 105.2 59.92PleiadPower70WCDM-R4 76401-40 70WCDM-R 1 4500 79 101.1 57.59PleiadPower70WMT 76482 70WMT 1 4500 79 55 31.33PleiadPower70WMT 76483 70WMT 1 4500 79 55 31.33PleiadPowerCDM-TC35Wwide 76477 35WCDM-T 1 3300 43 66 50.65PleiadPowerHM70WCDM-T 76500 70WCDM-T 1 6600 79 63.8 53.30PleiadQL165W 72451 165WQL 1 11500 165 46.1 32.13PleiadSLD1x26W 76220 26WFSM 1 1800 26 72 49.85PleiadSLD1x26W 76200TI 26WFSM 1 1200 18 45.2 30.13


Nooflamps

LumenOutput/lamp

CircuitWatts

FileLOR


PleiadSLD1x26W 76220C2 26WFSM 1 1800 26 52.9 36.62PleiadSLD1x26W 76220co2 26WFSM 1 1800 26 52.9 36.62PleiadSLD 76200tii 18WFSM 1 1200 18 37.4 24.93PleiadSLD 76220_1 26WFSM 1 1800 26 75.5 52.27PleiadSLD 76220DI 26WFSM 1 1800 26 52.9 36.62PleiadSLD 76220tin 26WFSM 1 1800 26 45.1 31.22PleiadSLD 76260di 42WFSM 1 3200 46 52.9 36.80PleiadSLD175+Turbin1x18W 76200tur 18WFSM 1 1200 18 38.8 25.87PleiadSLD175+Disc1x18W 76200Dis 18WFSM 1 1200 18 36 24.00PleiadSLD175+Go1blue1x18w 76200G1 18WFSM 1 1200 18 42.9 28.60PleiadSLD175+Go1Frost1x18w 76200G1c 18WFSM 1 1200 18 42.9 28.60PleiadSLD175+Go1green1x18w 76200G1a 18WFSM 1 1200 18 42.9 28.60PleiadSLD175+Go1yellow1x18w 76200G1b 18WFSM 1 1200 18 42.9 28.60PleiadSLD175+Go1clear1x18w 76200Go1 18WFSM 1 1200 18 42.9 28.60PleiadSLD175+Go2blue1x18W 76200G2a 18WFSM 1 1200 18 42.4 28.27PleiadSLD175+Go2frost1x18W 76200G2d 18WFSM 1 1200 18 42.4 28.27PleiadSLD175+Go2green1x18W 76200G2b 18WFSM 1 1200 18 42.4 28.27PleiadSLD175+Go2yellow1x18W 76200G2c 18WFSM 1 1200 18 42.4 28.27PleiadSLD175+Go2clear1x18W 76200Go2 18WFSM 1 1200 18 42.4 28.27PleiadSLD175+IP44clear 76200Kla 18WFSM 1 1200 18 55 36.67PleiadSLD175+IP44opal 76200opa 18WFSM 1 1200 18 55 36.67PleiadSLD175+Opusgrey1x18W 76200Op1 18WFSM 1 1200 18 31.9 21.27PleiadSLD175+Opusmattalu1x18W 76200Opu 18WFSM 1 1200 18 31.9 21.27PleiadSLD175+Opuswhite1x18W 76200Op2 18WFSM 1 1200 18 31.9 21.27PleiadSLD175+Plain1x18w 76200pla 18WFSM 1 1200 18 33.4 22.27PleiadSLD175+Ringlightglas1x18w 76200RI 18WFSM 1 1200 18 52.3 34.87PleiadSLD175+Ringlightwhite1x18w 76200RIL 18WFSM 1 1200 18 52.3 34.87PleiadSLD1751x18W 76200-42 18WFSM 1 1200 18 62.6 41.73PleiadSLD1751x18W 76201_1 18WFSM 1 1200 18 66.9 44.60PleiadSLD1751x18W 76201-42 18WFSM 1 1200 18 63 42.00PleiadSLD1751x18W 76202_1 18WFSM 1 1200 18 62.8 41.87PleiadSLD1751x18W 76202-42 18WFSM 1 1200 18 57 38.00PleiadSLD1751x18W 76203-42 18WFSM 1 1200 18 63 42.00PleiadSLD1x18wTC- 76200_1 18WFSM 1 1200 18 62.6 41.73PleiadSLD1x26W 76220-42 26WFSM 1 1800 26 72 49.85PleiadSLD1x42W 76264 42WFSM 1 3200 46 72.3 50.30PleiadSLD2051x18W 72100-42 18WFSM 1 1200 18 62.6 41.73PleiadSLD2051x18W 72101-42 18WFSM 1 1200 18 66.3 44.20PleiadSLD2051x18W 72102-42 18WFSM 1 1200 18 51.1 34.07PleiadSLD2051x18W 72103-42 18WFSM 1 1200 18 62.6 41.73PleiadSLD215 76230-42 26WFSM 2 1800 54 50.2 33.47PleiadSLD215+Ringlightglas 76230rgl 26WFSM 2 1800 54 55.7 37.13PleiadSLD215+Cone1 76230c1 26WFSM 2 1800 54 42.6 28.40PleiadSLD215+IP44Opal1x26W 76220opa 26WFSM 1 1800 26 53 36.69PleiadSLD215+Opusgrey 76232op1 26WFSM 2 1800 54 32.8 21.87PleiadSLD215+opusgrey1x26W 76222op1 26WFSM 1 1800 26 50 34.62PleiadSLD215+Opusmattalu 76232opu 26WFSM 2 1800 54 38 25.33PleiadSLD215+opusmattalu1x26W 76222opu 26WFSM 1 1800 26 50 34.62PleiadSLD215+Opuswhite 76232op2 26WFSM 2 1800 54 32.8 21.87PleiadSLD215+opuswhite1x26W 76222op2 26WFSM 1 1800 26 50 34.62PleiadSLD215+Soft1x26W 76222sof 26WFSM 1 1800 26 52 36.00PleiadSLD215+turbin2x26W 76230tur 26WFSM 2 1800 54 34.4 22.93PleiadSLD215+Bowl1x26W 76220bow 26WFSM 1 1800 26 51 35.31PleiadSLD215+Disc1x26W 76220dis 26WFSM 1 1800 26 52.9 36.62PleiadSLD215+Disc2x26W 76230dis 26WFSM 2 1800 54 40.4 26.93PleiadSLD215+Go2blue1x26W 76220G1 26WFSM 1 1800 26 52.9 36.62PleiadSLD215+Go2blue2x26W 76230G1 26WFSM 2 1800 54 42.6 28.40PleiadSLD215+Go2frost1x26W 76220G3 26WFSM 1 1800 26 52.9 36.62PleiadSLD215+Go2frost2x26W 76230G4 26WFSM 2 1800 54 42.6 28.40PleiadSLD215+Go2green1x26W 76220G4 26WFSM 1 1800 26 52.9 36.62PleiadSLD215+Go2green2x26W 76230G2 26WFSM 2 1800 54 42.6 28.40PleiadSLD215+Go2yellow1x26W 76220G2 26WFSM 1 1800 26 52.9 36.62PleiadSLD215+Go2yellow2x26W 76230G3 26WFSM 2 1800 54 42.6 28.40PleiadSLD215+Go2clear1x26W 76220Go2 26WFSM 1 1800 26 52.9 36.62PleiadSLD215+Go2clear2x26W 76230Go2 26WFSM 2 1800 54 42.6 28.40PleiadSLD215+Hover1x26W 76220hov 26WFSM 1 1800 26 61 42.23PleiadSLD215+Hover2x26W 76230hov 26WFSM 2 1800 54 48 32.00PleiadSLD215+IP44clear1x26W 76220kla 26WFSM 1 1800 26 68 47.08PleiadSLD215+Prisma1x26W 76220pri 26WFSM 1 1800 26 66 45.69PleiadSLD215+Ringlightglas1x26W 76220rgl 26WFSM 1 1800 26 70 48.46PleiadSLD215+Ringlightglas1x26W 76220RI 26WFSM 1 1800 26 70 48.46PleiadSLD215+Ringlightwhite1x26W 76220Ri1 26WFSM 1 1800 26 70 48.46PleiadSLD215+Ringlightwhite2x26W 76230Ri 26WFSM 2 1800 54 55.7 37.13PleiadSLD215+Ringlightwhite2x26W 76230Ri2 26WFSM 2 1800 54 55.7 37.13PleiadSLD215+Soft1x26W 76220sof 26WFSM 1 1800 26 58 40.15PleiadSLD215+Soft2x26W 76232sof 26WFSM 2 1800 54 40 26.67PleiadSLD215+Star1x26W 76222sta 26WFSM 1 1800 26 52 36.00PleiadSLD215+Star2x26W 76232sta 26WFSM 2 1800 54 44 29.33PleiadSLD215+Turbin1x26W 76220tur 26WFSM 1 1800 26 48 33.23PleiadSLD2151x26W 76221_1 26WFSM 1 1800 26 75 51.92PleiadSLD2151x26W 76221-42 26WFSM 1 1800 26 75 51.92PleiadSLD2151x26W 76222_1 26WFSM 1 1800 26 67 46.38PleiadSLD2151x26W 76222-42 26WFSM 1 1800 26 67 46.38


Nooflamps

LumenOutput/lamp

CircuitWatts

FileLOR


PleiadSLD2151x26W 76223_1 26WFSM 1 1800 26 75 51.92PleiadSLD2151x26W 76223-42 26WFSM 1 1800 26 75 51.92PleiadSLD2151x26W+Plain 76220pla 26WFSM 1 1800 26 59 40.85PleiadSLD2152x18W 76211-42 18WFSM 2 1200 38 52 32.84PleiadSLD2152x18W 76213-42 18WFSM 2 1200 38 52 32.84PleiadSLD2451x26W 72120-42 26WFSM 1 2400 26 72 66.46PleiadSLD2451x26W 72121-42 26WFSM 1 1800 26 70.2 48.60PleiadSLD2451x26W 72122-42 26WFSM 1 1800 26 57.7 39.95PleiadSLD2451x26W 72123-42 26WFSM 1 1800 26 76.5 52.96PleiadSLD255+Disc1x42W 76260Dis 42WFSM 1 3200 46 52.9 36.80PleiadSLD255+IP44clear2x26W 76240op1 32WFSM 1 2400 35 47.8 32.78PleiadSLD255+IP44clear2x26W 76240opa 32WFSM 1 2400 35 47.8 32.78PleiadSLD255+Plain1x32W 76240pla 32WFSM 1 2400 35 59 40.46PleiadSLD255+Turbin1x32W 76240tur 32WFSM 1 2400 35 50 34.29PleiadSLD2551x32W 76240 32WFSM 1 2400 35 77 52.80PleiadSLD2551x32W 76241 32WFSM 1 2400 35 81.3 55.75PleiadSLD2551x32W 76242 32WFSM 1 2400 35 70.4 48.27PleiadSLD2551x32W 76243 32WFSM 1 2400 35 77 52.80PleiadSLD2551x32W 76241_1 32WFSM 1 2400 35 77 52.80PleiadSLD2551x42W 76260 42WFSM 1 3200 46 73 50.78PleiadSLD2551x42W 76261 42WFSM 1 3200 46 71.6 49.81PleiadSLD2551x42W 76262 42WFSM 1 3200 46 67.1 46.68PleiadSLD2551x42W 76263 42WFSM 1 3200 46 73.6 51.20PleiadSLD2851x32W 72140 32WFSM 1 2400 35 75.1 51.50PleiadSLD2851x32W 72141 32WFSM 1 2400 35 81.3 55.75PleiadSLD2851x32W 72142 32WFSM 1 2400 35 70.4 48.27PleiadSLD2851x32W 72143 32WFSM 1 2400 35 73.6 50.47PleiadSLD2851x42W 72160 42WFSM 1 3200 46 73 50.78PleiadSLD2851x42W 72161 42WFSM 1 3200 46 71.6 49.81PleiadSLD2851x42W 72162 42WFSM 1 3200 46 67.1 46.68PleiadSLD2851x42W 72163 42WFSM 1 3200 46 73.6 51.20PleiadTrendCompact1x18WGlas 76632 18WFSQ 1 1200 18 36 24.00PleiadTrendCompact1x26WGlas 76635 26WFSQ 1 1800 26 34.1 23.61PleiadTrendCompact1x18W 76631 18WFSQ 1 1200 18 49 32.67PleiadTrendCompact1x26W 76634 26WFSQ 1 1800 26 55.7 38.56PleiadTrendCompact2x26W 76637 26WFSQ 2 1800 54 54.3 36.20PleiadTrendCompact2x26WGlas 76638 26WFSQ 2 1800 54 36.1 24.07PleiadTrendSLD1x10W 76609 10WFSQ 1 600 12 46.1 23.05PleiadTrendSLD1x10W 76610 10WFSQ 1 600 12 58.3 29.15PleiadTrendSLD1x18WGlas 76612 18WFSM 1 1200 18 32 21.33PleiadTrendSLD1x26WGlas 76615 26WFSM 1 1800 26 40.5 28.04PleiadTrendSLD1x32W 76617 32WFSM 1 2400 35 63.5 43.54PleiadTrendSLD1x32WGlas 76618 32WFSM 1 2400 35 50.6 34.70PleiadTrendSLD1x18W 76611 18WFSM 1 1200 18 66.3 44.20PleiadTrendSLD1x26W 76614 26WFSM 1 1800 26 57.7 39.95PleiadTrendSLD42W 76619 42WFSM 1 3200 46 61.2 42.57PleiadTrendSLD42WGlas 76620 42WFSM 1 3200 46 48.8 33.95PleiadWallwasher2151x18W 76350-42 18WFSM 1 1200 18 73.7 49.13PleiadWallwasher2151x26W 76351-42 26WFSM 1 1800 26 67.2 46.52PleiadWallwasher2551x32W 76352-42 32WFSM 1 2400 35 84.3 57.81PleiadWallwasher2551x42W 76353 42WFSM 1 3200 46 73.5 51.13Rialto Rialtolineprism1x18W 64824 18WFSD 1 1200 20 62.2 37.32Rialtolineprism1x22W 64825 22WT5C 1 1800 25 55.8 40.18Rialtolineprism1x24W 64826 24WFSD 1 1800 26 62.2 43.06Rialtolineprism1x36W 64827 36WFSD 1 2900 38 62.2 47.47RialtolineprismFDH1x24W 64829 24WT5 1 1800 26 65.5 45.35RialtolineprismFSD1x55W 64828 55WFSD 1 4800 61 62.2 48.94RialtoopalisedFSD1x24W 64886 24WFSD 1 1800 26 57.8 40.02Rialtoopalised1x18W 64884 18WFSD 1 1200 20 57.8 34.68Rialtoopalised1x22W 64885 22WT5C 1 1800 25 52.2 37.58Rialtoopalised1x36W 64887 36WFSD 1 2900 38 57.8 44.11Rialtoopalised1x55W 64888 55WFSD 1 4800 61 57.8 45.48RialtoopalisedFDH1x24W 64889 24WT5 1 1800 26 70.9 49.08RIO RIO1x28Wned rio28n 28WT5 1 2600 33 50.5 39.79RIO1x35Wned RIO35N 35WT5 1 3300 40 50.5 41.66RIO1x49Wned rio49n 49WT5 1 4300 56 50.5 38.78RIO1x54Wned rio54n 54WT5 1 4450 61 50.5 36.84RIOIndirect28W rio28u 28WT5 1 2600 33 96 75.64RIOIndirect35W RIO35U 35WT5 1 3300 40 96 79.20RIOIndirect49W rio49u 49WT5 1 4300 56 96 73.71RIOIndirect54W rio54u 54WT5 1 4450 61 96 70.03Roma RomaSingelLined35W 2922LG 35WT5 1 3300 40 62.9 51.89RomaSingelLined49W 2923LG 49WT5 1 4300 56 62.9 48.30RomaSingelLined80W 2931LG 80WT5 1 6150 86 62.9 44.98RomaSingelOpal35W 2922G 35WT5 1 3300 40 63.1 52.06RomaSingelOpal49W 2923G 49WT5 1 4300 56 63.1 48.45RomaSingelOpal80W 2931G 80WT5 1 6150 86 63.1 45.12Scatola Scatola2x28wmedium 35183 28WT5 2 2600 62 83 69.61Scatola2x54Wmedium 35184 54WT5 2 4450 118 83 62.60


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