signify TC BA-L Dome Pendant Surface Mount Instructions

signify TC BA-L Dome Pendant Surface Mount

GENERAL INFORMATION

MANUFACTURER

Netherlands

Contact details| sustainability@signify.com
Website| https://www.signify.com/global

EPD STANDARDS, SCOPE AND VERIFICATION

C1-C4, D

EPD author| Sustainability Signify
EPD verification| Independent verification of this EPD and data, according to ISO 14025:
? Internal certification External ▢ verification

The manufacturer has the sole ownership, liability, and responsibility for the EPD. EPDs within the same product category but from different programs may not be comparable. EPDs of lighting products may not be comparable if they do not comply with EN 15804 and if they are not compared in a lighting context.

PRODUCT

ENVIRONMENTAL DATA SUMMARY

PRODUCT AND MANUFACTURER

ABOUT THE MANUFACTURER

Introducing Signify, the world leader in lighting solutions for professionals, consumers, and the Internet of Things. We are excited to present our PHILIPS MY CREATION brand, which provides REMARKABLE LIGHTING that is SUSTAINABLY PRINTED. With PHILIPS MY CREATION, you can create ambiances that set your space apart. Our amazing shapes and unique textures, enabled by cutting-edge 3D printing technology, create memorable experiences. And the best part? We use waste, recycled and bio-circular materials, to create mesmerizing new lights.
For more information, please visit: https://www.signify.com/global

PRODUCT DESCRIPTION

Truly sustainable lighting solutions that match various interior designs.
Dome can enrich various interior designs. It offers 2 sizes, various colors and the possibility to play with the effect on the inside of the shade.That can be white or satin brass. Dome provides functional lighting that meets office lighting requirements and can be connected to other systems to create a smart lighting solution. All printed parts are produced with at least 55% mass-balanced bio-circular material, which makes Dome a conscious choice for those who want to contribute to a circular economy.

Product family: Dome
Types covered by this EPD: Dome, BA and BA-L for pendant surface mount
Type selected for this EPD: TC BA-L S 17S/840 PSU WR BK402T102 BK
Luminous flux: 1764lm
System power: 13,4 W
Light color: Light Color 4000K | CRI 80+

Driver options: PSU, DIA (DALI InterAct Ready), WIA (Wireless InterAct system)

For More Information Please Visit:
https://pro.mycreation.lighting.philips.com/lighting- solutions/functionalpendants/dome
Further information can be found at
https://pro.mycreation.lighting.philips.com/

PRODUCT RAW MATERIAL MAIN COMPOSITION

Raw material

category

| QUANTITY, kg| Recycled %| Material origin
---|---|---|---
Ferrous metals| 0| 0| Not applicable
Non-ferrous metals| 0.336| 25.8| EU
Plastics & rubbers| 2.461| 0| EU, ASIA
Electronic and electrical equipment (LED, Driver)| 0.106| 0| EU, ASIA

BIOGENIC CARBON CONTENT

Product’s biogenic carbon content at the factory gate

FUNCTIONAL UNIT AND SERVICE LIFE

SUBSTANCES, REACH – VERY HIGH CONCERN

The product does not contain any REACH SVHC substances in amounts greater than 0,1 % (1000 ppm).

PRODUCT LIFE-CYCLE

SYSTEM BOUNDARY

This EPD covers the life-cycle modules listed in the following table.

Product stage| Assembly stage| Use stage| End of life stage| Beyond the system

boundaries

---|---|---|---|---
A1| A2| A3| A4| A5| B1| B2| B3| B4| B5| B6| B7| C1| C2| C3| C4| D
x| x| x| x| x| MN R| MN R| MN R| MN R| MN R| x| MN R| MN R| x| x| x| x
Raw materials| Transport| Manufacturing| Transport| Assembly| Use| Maintenance| Repair| Replacement| Refurbishment| Operational| Operational| Deconstr./demol| Transport| Waste| Disposal| Reuse| Recovery| Recycling

Modules not declared = MND. Modules not relevant = MNR.

MANUFACTURING AND PACKAGING (A1-A3) VP-018

The environmental impacts considered for the product stage cover the manufacturing of raw materials used in the production as well as packaging materials and other ancillary materials. Also, electricity, and waste formed in the production processes at Signifier’s manufacturing facilities are included in this stage.

The product is made of metals, plastics, and electronic components. All components are transported to Signifier’s production facility, where the main manufacturing processes primarily are associated with assembly.
The finished product is packaged with polyethylene, cardboard, and/or paper as packaging material before being sent to customers.
Manufacturing loss, ancillaries and wastes are calculated according to the data that each manufacturing site is sharing with Signify.
The total annual amount of waste in kg is allocated to the total annual production in kg at the specific manufacturing site responsible for the production of the studied luminaire. Thus, it is possible to allocate it according to the weight of the product analysed in this study. Some of
the waste are due to ancillary materials used during manufacturing while the rest is due to material losses.

TRANSPORT AND INSTALLATION (A4-A5)
Transport distances were calculated on the base of the supplier location and manufacturing location and then made a cumulative group choosing the conservative scenario. Environmental impacts from installation include waste packaging materials (A5). The impacts of energy consumption and the used ancillary materials during installation are considered negligible.

PRODUCT USE AND MAINTENANCE (B1-B7) VP-043-C
During the use phase, the product consumes electricity from Europe’s electricity grid mix (B6).
The total power consumption of the reference product is calculated as follows:
Wattage x Reference lifetime = kWh consumed throughout the entire use phase B6.
Air, soil, and water impacts during the use phase have not been studied.

PRODUCT END OF LIFE (C1-C4, D) VP-049-C
Consumption of energy and natural resources in demolition process is assumed to be negligible. It is assumed that the waste is collected separately and transported to the waste treatment center. Transportation distance to treatment is assumed as 150 km and the transportation method is assumed to be lorry (C2). According to EN 50693:2019, the sequence of treatment operations occurring to the product shall include de-pollution, fractions separation and preparation (dismantling, crushing, shredding, sorting), recycling, other material recovery, energy recovery and disposal. In this study, the default values from table G.4 of EN 50693 is used for treating materials in different waste treatment methods. Due to the material and energy recovery potential of parts in the lighting system, the end-of-life product is converted into recycled raw materials, while the energy recovered from incineration displaces electricity and heat production (D). The wooden pallet and other plastic packaging used during transportation is also incinerated for energy recovery and/or recycled. The benefits and loads of incineration and recycling are included in Module D.

SYSTEM BOUNDARY

LIFE-CYCLE ASSESSMENT

CUT-OFF CRITERIA VP-020
The study does not exclude any modules or processes which are stated mandatory in the reference standard and the applied PCR. The study does not exclude any hazardous materials or substances. The study includes all major raw material and energy consumption. All inputs and outputs of the unit processes, for which data is available for, are included in the calculation. There is no neglected unit process more than 1% of total mass or energy flows. The module specific total neglected input and output flows also do not exceed 5% of energy usage or mass.

ALLOCATION, ESTIMATES AND ASSUMPTIONS
Allocation is required if some material, energy, and waste data cannot be measured separately for the product under investigation. All allocations are done as per the reference standards and the applied PCR. In this study, ancillary materials, energy & water consumption, material loss and waste generation at the manufacturing site are attributed to the bill of materials of the products, therefore, they are allocated by partitioning the quantities on the base of the total production in kg throughout the year. Thus, allocation has been done in the following ways:

AVERAGES AND VARIABILITY

This EPD is product and factory specific and does not contain average calculations. It is created with a most conservative scenario in A1-A3 in terms of material composition.

LCA SOFTWARE AND BIBLIOGRAPHY
This EPD has been created using One Click LCA EPD Generator. The LCA and EPD have been prepared according to the reference standards and ISO 14040/14044. Ecoinvent 3.8 database was used as the source of environmental data.

ENVIRONMENTAL IMPACT DATA

CORE ENVIRONMENTAL IMPACT INDICATORS – EN 15804+A2, PEF

Impact category| Unit| A1| A2| A3| A1-A3| A4| A5| B1| B2| B3| B4| B5| B6| B7| C1| C2| C3| C4| D
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---
GWP – total1)| kg CO2e| 29.6| 0.871| 7.81| 38.2| 0.871| 2.59| MNR| MNR| MNR| MNR| MNR| 265.0| MNR| MNR| 0.0424| 2.94| 1.55| -9.45
GWP – fossil| kg CO2e| 29.9| 0.871| 10.3| 41.1| 0.87| 0.0663| MNR| MNR| MNR| MNR| MNR| 265.0| MNR| MNR| 0.0424| 2.94| 1.55| -9.43
GWP – biogenic| kg CO2e| -0.357| 0.0| -2.53| -2.88| 0.00033

7

| 2.53| MNR| MNR| MNR| MNR| MNR| 0.0| MNR| MNR| 0.0| 0.0| 0.0| -0.0136
GWP – LULUC| kg CO2e| 0.0394| 0.00032

2

| 0.0178| 0.0575| 0.00032

1

| 2.27e-

05

| MNR| MNR| MNR| MNR| MNR| 0.619| MNR| MNR| 1.56e-

05

| 4.29e-

05

| 2.53e-

05

| –

0.00636

Ozone depletion pot.| kg CFC-11e| 1.79e-

06

| 2e-07| 1.05e-

06

| 3.04e-

06

| 2e-07| 6.64e-

09

| MNR| MNR| MNR| MNR| MNR| 1.34e-

05

| MNR| MNR| 9.74e-

09

| 7.3e-09| 5.87e-

09

| -2.46e-

07

Acidification potential| mol H+e| 0.197| 0.00374| 0.0419| 0.242| 0.00369| 0.00052| MNR| MNR| MNR| MNR| MNR| 1.51| MNR| MNR| 0.00017

9

| 0.00077

9

| 0.00042

1

| -0.108
EP-freshwater 2)| kg Pe| 0.00467| 7.12e-06| 0.000314| 0.00499| 7.13e-06| 6.94e07| MNR| MNR| MNR| MNR| MNR| 0.0281| MNR| MNR| 3.47e07| 1.33e-

06

| 5.9e-07| – 0.00056

7

EP-marine| kg Ne| 0.0289| 0.00111| 0.0101| 0.04| 0.0011| 0.00022| MNR| MNR| MNR| MNR| MNR| 0.201| MNR| MNR| 5.33e-

05

| 0.00033

6

| 0.00026

7

| -0.0101
EP-terrestrial| mol Ne| 0.312| 0.0122| 0.0852| 0.41| 0.0121| 0.00228| MNR| MNR| MNR| MNR| MNR| 2.28| MNR| MNR| 0.00058

8

| 0.00348| 0.00191| -0.12
POCP (“smog”)3)| kg NMVOC| 0.113| 0.0039| 0.0267| 0.144| 0.00387| 0.00057| MNR| MNR| MNR| MNR| MNR| 0.625| MNR| MNR| 0.00018

8

| 0.00085

2

| 0.00049

5

| -0.0343
ADP-minerals &

metals4)

| kg Sbe| 0.00172| 2.04e-

06

| 0.00031

6

| 0.00204| 2.04e-

06

| 2.18e-

07

| MNR| MNR| MNR| MNR| MNR| 0.00247| MNR| MNR| 9.93e-

08

| 1.07e-

06

| 1.66e-

07

| –

0.00107

ADP-fossil resources| MJ| 461.0| 13.1| 150.0| 623.0| 13.1| 0.516| MNR| MNR| MNR| MNR| MNR| 5640.0| MNR| MNR| 0.636| 0.689| 0.488| -97.2
Water use5)| m3e depr.| 14.9| 0.0584| 5.29| 20.2| 0.0585| 0.122| MNR| MNR| MNR| MNR| MNR| 154.0| MNR| MNR| 0.00285| 0.119| 0.0617| -1.32

1. GWP = Global Warming Potential; 2) EP = Eutrophication potential. Required characterisation method and data are in kg P-eq. Multiply by 3,07 to get PO4e;
2. POCP = Photochemical ozone formation; 4) ADP = Abiotic depletion potential;
3. EN 15804+A2 disclaimer for Abiotic depletion and Water use and optional indicators except Particulate matter and Ionizing radiation, human health. The results of these environmental impact indicators shall be used with care as the uncertainties on these results are high or as there is limited experience with the indicator.

ADDITIONAL (OPTIONAL) ENVIRONMENTAL IMPACT INDICATORS – EN 15804+A2, PEF

Impact category| Unit| A1| A2| A3| A1-A3| A4| A5| B1| B2| B3| B4| B5| B6| B7| C1| C2| C3| C4| D
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---
Particulate matter| Incidence| 1.71e-

06

| 1e-07| 4.26e-

07

| 2.24e-

06

| 1e-07| 4.83e-

09

| MNR| MNR| MNR| MNR| MNR| 4.97e-

06

| MNR| MNR| 4.88e-

09

| 4.54e-

09

| 3.27e-

09

| -7.69e-

07

Ionizing radiation6)| kBq

U235e

| 2.18| 0.0622| 0.356| 2.6| 0.0623| 0.00187| MNR| MNR| MNR| MNR| MNR| 153.0| MNR| MNR| 0.00303| 0.00288| 0.00191| -0.688
Ecotoxicity

(freshwater)

| CTUe| 1570.0| 11.7| 280.0| 1860.0| 11.8| 3.55| MNR| MNR| MNR| MNR| MNR| 3830.0| MNR| MNR| 0.572| 6.68| 28.4| -460.0
Human toxicity,

cancer

| CTUh| 5.21e-

08

| 2.89e-

10

| 6.56e-

09

| 5.9e-08| 2.89e-

10

| 1.61e-

10

| MNR| MNR| MNR| MNR| MNR| 1.26e-

07

| MNR| MNR| 1.41e-

11

| 2.75e-

10

| 6.91e-

10

| -7.98e-

09

Human tox. non-

cancer

| CTUh| 2.08e-

06

| 1.16e-

08

| 2.32e-

07

| 2.32e-

06

| 1.16e-

08

| 6.71e-

09

| MNR| MNR| MNR| MNR| MNR| 4.13e-

06

| MNR| MNR| 5.66e-

10

| 1.06e-

08

| 4.31e-

08

| -7.55e-

07

SQP7)| –| 147.0| 15.0| 90.0| 252.0| 15.1| 0.282| MNR| MNR| MNR| MNR| MNR| 1020.0| MNR| MNR| 0.733| 0.356| 0.572| -42.3

6. EN 15804+A2 disclaimer for Ionizing radiation, human health. This impact category deals mainly with the eventual impact of low dose ionizing radiation on human health of the nuclear fuel cycle. It does not consider effects due to possible nuclear accidents, occupational exposure nor due to radioactive waste disposal in underground facilities. Potential ionizing radiation from the soil, from radon and from some construction materials is also not measured by this indicator; 7) SQP = Land use related impacts/soil quality.

USE OF NATURAL RESOURCES

Impact category| Unit| A1| A2| A3| A1-A3| A4| A5| B1| B2| B3| B4| B5| B6| B7| C1| C2| C3| C4| D
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---
Renew. PER as energy8)| MJ| 31.7| 0.147| 125.0| 157.0| 0.147| 0.017| MNR| MNR| MNR| MNR| MNR| 1150.0| MNR| MNR| 0.00717| 0.0417| 0.016| -8.49
Renew. PER as material| MJ| 3.31| 0.0| 22.2| 25.5| 0.0| -22.2| MNR| MNR| MNR| MNR| MNR| 0.0| MNR| MNR| 0.0| 0.0| 0.0| 0.0
Total use of renew. PER| MJ| 35.0| 0.147| 148.0| 183.0| 0.147| -22.2| MNR| MNR| MNR| MNR| MNR| 1150.0| MNR| MNR| 0.00717| 0.0417| 0.016| -8.49
Non-re. PER as energy| MJ| 386.0| 13.1| 148.0| 548.0| 13.1| 0.516| MNR| MNR| MNR| MNR| MNR| 5620.0| MNR| MNR| 0.636| 0.689| 0.488| -97.2
Non-re. PER as material| MJ| 74.8| 0.0| 0.19| 75.0| 0.0| -0.19| MNR| MNR| MNR| MNR| MNR| 0.0| MNR| MNR| 0.0| -36.1| -36.1| 0.0
Total use of non-re. PER| MJ| 461.0| 13.1| 149.0| 623.0| 13.1| 0.326| MNR| MNR| MNR| MNR| MNR| 5620.0| MNR| MNR| 0.636| -35.5| -35.7| -97.2
Secondary materials| kg| 0.286| 0.00363| 1.76| 2.05| 0.00363| 0.00061

4

| MNR| MNR| MNR| MNR| MNR| 0.58| MNR| MNR| 0.00017

7

| 0.00058

3

| 0.00048

3

| 0.184
Renew. secondary fuels| MJ| 0.0442| 3.66e-

05

| 0.122| 0.166| 3.66e-

05

| 1.01e-

05

| MNR| MNR| MNR| MNR| MNR| 0.0047| MNR| MNR| 1.78e-

06

| 2.43e-

05

| 1.17e-

05

| –

0.00219

Non-ren. secondary

fuels

| MJ| 0.0| 0.0| 0.0| 0.0| 0.0| 0.0| MNR| MNR| MNR| MNR| MNR| 0.0| MNR| MNR| 0.0| 0.0| 0.0| 0.0
Use of net fresh water| m3| 0.345| 0.00169| 0.127| 0.474| 0.00169| 0.00213| MNR| MNR| MNR| MNR| MNR| 4.85| MNR| MNR| 8.24e-

05

| 0.00441| 0.00236| -0.0477

8. PER = Primary energy resources.

END OF LIFE – WASTE

Impact category| Unit| A1| A2| A3| A1-A3| A4| A5| B1| B2| B3| B4| B5| B6| B7| C1| C2| C3| C4| D
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---
Hazardous waste| kg| 2.91| 0.0173| 0.505| 3.43| 0.0173| 0.00164| MNR| MNR| MNR| MNR| MNR| 20.2| MNR| MNR| 0.00084

4

| 0.00106| 0.024| -1.07
Non-hazardous waste| kg| 41.6| 0.284| 9.63| 51.5| 0.285| 1.7| MNR| MNR| MNR| MNR| MNR| 1280.0| MNR| MNR| 0.0139| 1.26| 1.4| -32.6
Radioactive waste| kg| 0.00052

1

| 8.75e-

05

| 0.00016| 0.000768| 8.75e-

05

| 8.44e-07| MNR| MNR| MNR| MNR| MNR| 0.041| MNR| MNR| 4.26e06| 5.46e07| 0.0| – 0.00022

8

END OF LIFE – OUTPUT FLOWS

Impact category| Unit| A1| A2| A3| A1-A3| A4| A5| B1| B2| B3| B4| B5| B6| B7| MNR| C2| C3| C4| D
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---
Components for re-use| kg| 0.0| 0.0| 0.0| 0.0| 0.0| 0.0| MNR| MNR| MNR| MNR| MNR| 0.0| MNR| MNR| 0.0| 0.0| 0.0| 0.0
Materials for recycling| kg| 0.0| 0.0| 0.0| 0.0| 0.0| 0.0| MNR| MNR| MNR| MNR| MNR| 0.0| MNR| MNR| 0.0| 0.247| 0.0| 0.0
Materials for energy rec| kg| 0.0| 0.0| 0.0| 0.0| 0.0| 0.0| MNR| MNR| MNR| MNR| MNR| 0.0| MNR| MNR| 0.0| 0.0| 0.0| 0.0
Exported energy| MJ| 0.0| 0.0| 0.505| 0.505| 0.0| 0.0| MNR| MNR| MNR| MNR| MNR| 0.0| MNR| MNR| 0.0| 27.1| 0.0| 0.0

ENVIRONMENTAL IMPACTS – EN 15804+A1, CML / ISO 21930

Impact

category

| Unit| A1| A2| A3| A1-A3| A4| A5| B1| B2| B3| B4| B5| B6| B7| C1| C2| C3| C4| D
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---
Global

Warming Pot.

| kg CO2e| 28.8| 0.862| 10.3| 39.9| 0.862| 0.0633| MNR| MNR| MNR| MNR| MNR| 262.0| MNR| 0.0| 0.0419| 2.94| 1.53| -9.22
Ozone

depletion Pot.

| kg CFC-11e| 1.71e-06| 1.59e-07| 9.06e-07| 2.77e-06| 1.59e-07| 5.8e-09| MNR| MNR| MNR| MNR| MNR| 1.17e-05| MNR| 0.0| 7.72e-09| 6.5e-09| 5e-09| -2.06e-

07

Acidification| kg SO2e| 0.166| 0.00291| 0.034| 0.203| 0.00286| 0.000379| MNR| MNR| MNR| MNR| MNR| 1.28| MNR| 0.0| 0.000139| 0.000565| 0.000304| -0.0936
Eutrophication| kg PO43e| 0.088| 0.000656| 0.0142| 0.103| 0.000652| 0.000282| MNR| MNR| MNR| MNR| MNR| 0.987| MNR| 0.0| 3.17e-05| 0.000377| 0.00459| -0.0236
POCP

(“smog”)

| kg C2H4e| 0.0139| 0.000113| 0.00218| 0.0162| 0.000112| 1.18e-05| MNR| MNR| MNR| MNR| MNR| 0.0525| MNR| 0.0| 5.44e-06| 1.37e-05| 1.82e-05| -0.00414
ADP-elements| kg Sbe| 0.0017| 1.97e-06| 0.000314| 0.00201| 1.98e-06| 1.71e-07| MNR| MNR| MNR| MNR| MNR| 0.00247| MNR| 0.0| 9.62e-08| 1.01e-06| 1.35e-07| -0.00107
ADP-fossil| MJ| 444.0| 13.1| 149.0| 607.0| 13.1| 0.516| MNR| MNR| MNR| MNR| MNR| 5620.0| MNR| 0.0| 0.636| 0.689| 0.488| -97.2

APPENDIX (EPD HUB ALIGNED)

This section represents the scaling method for the B6 module, following the PEP EcoPassport PSR for luminaries (PSR-0014-ed2.0-EN-2023 07 13). The GWP results were scaled from a reference variant of a product family, based on various light management scenarios and power inputs of the luminaires within the same product families

To calculate the Scaled Impact (SI), we have followed the below methods:

1. Calculate the power scaling factor (PSF), which is the ratio of the power input of the variant in questions Pin and the power input of the base variant
   Pbase.

2. Calculate the Total Scaling factor by multiplying the PSF by the control scaling factor (CSF), where the CSF is determined according the relevant control factor scenario (e.g. if the luminaire has a presence detection system). The presented controls factors values in Table A1 are based on BS EN 15193- 1:2017. Please refer to this publication or contact Signify directly for more information.
   Table A1 Light management functions (EPD Hub aligned)

   Scenario| Abbrev.| CSF
   No control| NC| 1
   Daylight dependency factor| DD| 0.75
   Presence sensing| PS| 0.75
   Daylight dependency and presence sensing| DD+PS| 0.55

3. Lastly, the GWP of the base variant is then scaled by the TSF.

Table A2 Scaled GWP per scaling factor (EPD Hub aligned)

27S  827  39S  827

 | Total Scaling Factor (TSF)| Scaled Impacts (GWP100 B6 – kg CO2eq.)
---|---|---
PFC| Lamp family| Module color| Driver type| Flux [lm]| Power [W]| Efficacy [lm/W]| PSF| NC| DD| PS| DD+PS| NC| DD| PS| DD+PS
Dome S (surface mount) with inner shade: BA-S & BA-L| 17S| 827| PSU| 1716| 13.4| 128| 1.00| 1.00| N/A| N/A| N/A| 265.0| N/A| N/A| N/A
DIA| 1717| 13.4| 128| 1.00| 1.00| 0.75| 0.75| 0.55| 265.0| 198.8| 198.8| 145.8
WIA| 1718| 13.4| 128| 1.00| 1.00| 0.75| 0.75| 0.55| 265.0| 198.8| 198.8| 145.8
830| PSU| 1764| 13.4| 132| 1.00| 1.00| N/A| N/A| N/A| 265.0| N/A| N/A| N/A
DIA| 1764| 13.4| 132| 1.00| 1.00| 0.75| 0.75| 0.55| 265.0| 198.8| 198.8| 145.8
WIA| 1764| 13.4| 132| 1.00| 1.00| 0.75| 0.75| 0.55| 265.0| 198.8| 198.8| 145.8
840| PSU| 1861| 13.4| 139| 1.00| 1.00| N/A| N/A| N/A| 265.0| N/A| N/A| N/A
DIA| 1861| 13.4| 139| 1.00| 1.00| 0.75| 0.75| 0.55| 265.0| 198.8| 198.8| 145.8
WIA| 1861| 13.4| 139| 1.00| 1.00| 0.75| 0.75| 0.55| 265.0| 198.8| 198.8| 145.8
PW930| PSU| 1722| 13.4| 129| 1.00| 1.00| N/A| N/A| N/A| 265.0| N/A| N/A| N/A
DIA| 1722| 13.4| 129| 1.00| 1.00| 0.75| 0.75| 0.55| 265.0| 198.8| 198.8| 145.8
WIA| 1722| 13.4| 129| 1.00| 1.00| 0.75| 0.75| 0.55| 265.0| 198.8| 198.8| 145.8
PW940| PSU| 1829| 13.4| 136| 1.00| 1.00| N/A| N/A| N/A| 265.0| N/A| N/A| N/A
DIA| 1829| 13.4| 136| 1.00| 1.00| 0.75| 0.75| 0.55| 265.0| 198.8| 198.8| 145.8
WIA| 1829| 13.4| 136| 1.00| 1.00| 0.75| 0.75| 0.55| 265.0| 198.8| 198.8| 145.8
FMT| PSU| 1665| 20.7| 80| 1.54| 1.54| N/A| N/A| N/A| 409.4| N/A| N/A| N/A
DIA| 1665| 20.7| 80| 1.54| 1.54| 1.16| 1.16| 0.85| 409.4| 307.0| 307.0| 225.2
WIA| 1665| 20.7| 80| 1.54| 1.54| 1.16| 1.16| 0.85| 409.4| 307.0| 307.0| 225.2
22S| 827| PSU| 2471| 19.1| 129| 1.43| 1.43| N/A| N/A| N/A| 377.7| N/A| N/A| N/A
DIA| 2471| 19.1| 129| 1.43| 1.43| 1.07| 1.07| 0.78| 377.7| 283.3| 283.3| 207.7
WIA| 2471| 18.9| 131| 1.41| 1.41| 1.06| 1.06| 0.78| 373.8| 280.3| 280.3| 205.6
830| PSU| 2541| 19.1| 133| 1.43| 1.43| N/A| N/A| N/A| 377.7| N/A| N/A| N/A
DIA| 2541| 19.1| 133| 1.43| 1.43| 1.07| 1.07| 0.78| 377.7| 283.3| 283.3| 207.7
WIA| 2541| 18.9| 134| 1.41| 1.41| 1.06| 1.06| 0.78| 373.8| 280.3| 280.3| 205.6
840| PSU| 2683| 19.1| 140| 1.43| 1.43| N/A| N/A| N/A| 377.7| N/A| N/A| N/A
DIA| 2683| 19.1| 140| 1.43| 1.43| 1.07| 1.07| 0.78| 377.7| 283.3| 283.3| 207.7
WIA| 2683| 18.9| 142| 1.41| 1.41| 1.06| 1.06| 0.78| 373.8| 280.3| 280.3| 205.6
PW930| PSU| 2458| 19.1| 129| 1.43| 1.43| N/A| N/A| N/A| 377.7| N/A| N/A| N/A
DIA| 2458| 19.1| 129| 1.43| 1.43| 1.07| 1.07| 0.78| 377.7| 283.3| 283.3| 207.7
WIA| 2458| 18.9| 130| 1.41| 1.41| 1.06| 1.06| 0.78| 373.8| 280.3| 280.3| 205.6
PW940| PSU| 2612| 19.1| 137| 1.43| 1.43| N/A| N/A| N/A| 377.7| N/A| N/A| N/A
DIA| 2612| 19.1| 137| 1.43| 1.43| 1.07| 1.07| 0.78| 377.7| 283.3| 283.3| 207.7
WIA| 2612| 18.9| 138| 1.41| 1.41| 1.06| 1.06| 0.78| 373.8| 280.3| 280.3| 205.6
PSU| 2699| 21.0| 129| 1.57| 1.57| N/A| N/A| N/A| 415.3| N/A| N/A| N/A
DIA| 2699| 21.0| 129| 1.57| 1.57| 1.18| 1.18| 0.86| 415.3| 311.5| 311.5| 228.4
WIA| 2699| 21.0| 129| 1.57| 1.57| 1.18| 1.18| 0.86| 415.3| 311.5| 311.5| 228.4
830| PSU| 2776| 21.0| 132| 1.57| 1.57| N/A| N/A| N/A| 415.3| N/A| N/A| N/A
DIA| 2776| 21.0| 132| 1.57| 1.57| 1.18| 1.18| 0.86| 415.3| 311.5| 311.5| 228.4
WIA| 2776| 21.0| 132| 1.57| 1.57| 1.18| 1.18| 0.86| 415.3| 311.5| 311.5| 228.4
840| PSU| 2932| 21.0| 140| 1.57| 1.57| N/A| N/A| N/A| 415.3| N/A| N/A| N/A
DIA| 2932| 21.0| 140| 1.57| 1.57| 1.18| 1.18| 0.86| 415.3| 311.5| 311.5| 228.4
WIA| 2932| 21.0| 140| 1.57| 1.57| 1.18| 1.18| 0.86| 415.3| 311.5| 311.5| 228.4
PW930| PSU| 2683| 21.0| 128| 1.57| 1.57| N/A| N/A| N/A| 415.3| N/A| N/A| N/A
DIA| 2683| 21.0| 128| 1.57| 1.57| 1.18| 1.18| 0.86| 415.3| 311.5| 311.5| 228.4
WIA| 2683| 21.0| 128| 1.57| 1.57| 1.18| 1.18| 0.86| 415.3| 311.5| 311.5| 228.4
PW940| PSU| 2852| 21.0| 136| 1.57| 1.57| N/A| N/A| N/A| 415.3| N/A| N/A| N/A
DIA| 2852| 21.0| 136| 1.57| 1.57| 1.18| 1.18| 0.86| 415.3| 311.5| 311.5| 228.4
WIA| 2852| 21.0| 136| 1.57| 1.57| 1.18| 1.18| 0.86| 415.3| 311.5| 311.5| 228.4
FMT| PSU| 2592| 34.5| 75| 2.57| 2.57| N/A| N/A| N/A| 682.3| N/A| N/A| N/A
DIA| 2592| 34.5| 75| 2.57| 2.57| 1.93| 1.93| 1.42| 682.3| 511.7| 511.7| 375.3
WIA| 2592| 34.5| 75| 2.57| 2.57| 1.93| 1.93| 1.42| 682.3| 511.7| 511.7| 375.3
PSU| 4108| 34.6| 119| 2.58| 2.58| N/A| N/A| N/A| 684.3| N/A| N/A| N/A
DIA| 4108| 34.6| 119| 2.58| 2.58| 1.94| 1.94| 1.42| 684.3| 513.2| 513.2| 376.3
WIA| 4108| 34.6| 119| 2.58| 2.58| 1.94| 1.94| 1.42| 684.3| 513.2| 513.2| 376.3
830| PSU| 3847| 30.6| 126| 2.28| 2.28| N/A| N/A| N/A| 605.1| N/A| N/A| N/A
DIA| 3847| 30.7| 125| 2.29| 2.29| 1.72| 1.72| 1.26| 607.1| 455.3| 455.3| 333.9
WIA| 3847| 30.6| 126| 2.28| 2.28| 1.71| 1.71| 1.26| 605.1| 453.9| 453.9| 332.8
840| PSU| 3858| 28.6| 135| 2.13| 2.13| N/A| N/A| N/A| 565.6| N/A| N/A| N/A
DIA| 3858| 28.8| 134| 2.15| 2.15| 1.61| 1.61| 1.18| 569.6| 427.2| 427.2| 313.3

APPENDIX (PEP ECOPASSPORT ALIGNED)

This section represents the scaling method for the B6 module, following the PEP EcoPassport PSR for luminaries (PSR-0014-ed2.0-EN-2023 07 13). The GWP results were scaled from a reference variant of a product family, based on various light management functions, the lumen output (Olum) and reference service life (RSL) of each product within the same product families.

To calculate the Scaled Impact (SIpep), we have followed the below methods:

1. alculate the power scaling factor (PSF), which is the ratio of the power input of the variant in questions Pin and the power input of the base variant
   Pbase.

2. Calculate the Total Scaling factor by multiplying the PSF by the control scaling factor (CSF), where the CSF is determined according the relevant control factor scenario (e.g. if the luminaire has a presence detection system), as presented in Table A1.
   Table A3: Light management functions (PEP Eco Passport aligned)

   Scenario| Abbrev.| CSF
   No control| NC| 1
   Daylight dependency factor| DD| 0.75
   Presence sensing| PS| 0.75
   Daylight dependency and presence sensing| DD+PS| 0.55

3. Lastly, the GWP of the base variant is then scaled by the TSF.
   

4. Using this scaled GWP, we then can apply the PEP Ecopassport method for calculating the environmental impact of the functional unit for a
   luminaire (1000 lumens over 35000 hours), applied to B6, where the Functional Unit application considers the lumen output (Olum) and reference service lifetime (RSL) of the product to estimate the final environmental impact. The scaled impact (SIpep) is presented in Table A4.

As described in the EPD, calculations are made based on dataset describing electricity available on the low voltage level in Europe for year 2022 (source Ecoinvent 3.8 database). This value should be adjusted depending on specific project requirements. Presented controls factors and functional unit conversion values are based on the PEP EcoPassport PSR for luminaries (PSR-0014-ed2.0-EN-2023 07 13). Please refer to this publication or contact Signify directly for more information.

Table A4 Scale impact per scaling factor (PEP EcoPassport aligned)

 | Total Scaling Factor (TSF)| Scaled Impacts (GWP100 B6 – kg CO2eq.)
---|---|---
PFC| Lamp family| Module color| Driver type| Flux [lm]| Power [W]| Efficacy [lm/W]| PSF| NC| DD| PS| DD+PS| NC| DD| PS| DD+PS
Dome S (surface mount) with inner shade: BA-S & BA-L| 17S| 827| PSU| 1716| 13.4| 128| 1.00| 1.00| N/A| N/A| N/A| 108.1| N/A| N/A| N/A
DIA| 1717| 13.4| 128| 1.00| 1.00| 0.75| 0.75| 0.55| 108.0| 81.0| 81.0| 59.4
WIA| 1718| 13.4| 128| 1.00| 1.00| 0.75| 0.75| 0.55| 108.0| 81.0| 81.0| 59.4
830| PSU| 1764| 13.4| 132| 1.00| 1.00| N/A| N/A| N/A| 105.2| N/A| N/A| N/A
DIA| 1764| 13.4| 132| 1.00| 1.00| 0.75| 0.75| 0.55| 105.2| 78.9| 78.9| 57.8
WIA| 1764| 13.4| 132| 1.00| 1.00| 0.75| 0.75| 0.55| 105.2| 78.9| 78.9| 57.8
840| PSU| 1861| 13.4| 139| 1.00| 1.00| N/A| N/A| N/A| 99.7| N/A| N/A| N/A
DIA| 1861| 13.4| 139| 1.00| 1.00| 0.75| 0.75| 0.55| 99.7| 74.8| 74.8| 54.8
WIA| 1861| 13.4| 139| 1.00| 1.00| 0.75| 0.75| 0.55| 99.7| 74.8| 74.8| 54.8
PW930| PSU| 1722| 13.4| 129| 1.00| 1.00| N/A| N/A| N/A| 107.7| N/A| N/A| N/A
DIA| 1722| 13.4| 129| 1.00| 1.00| 0.75| 0.75| 0.55| 107.7| 80.8| 80.8| 59.2
WIA| 1722| 13.4| 129| 1.00| 1.00| 0.75| 0.75| 0.55| 107.7| 80.8| 80.8| 59.2
PW940| PSU| 1829| 13.4| 136| 1.00| 1.00| N/A| N/A| N/A| 101.4| N/A| N/A| N/A
DIA| 1829| 13.4| 136| 1.00| 1.00| 0.75| 0.75| 0.55| 101.4| 76.1| 76.1| 55.8
WIA| 1829| 13.4| 136| 1.00| 1.00| 0.75| 0.75| 0.55| 101.4| 76.1| 76.1| 55.8
FMT| PSU| 1665| 20.7| 80| 1.54| 1.54| N/A| N/A| N/A| 172.1| N/A| N/A| N/A
DIA| 1665| 20.7| 80| 1.54| 1.54| 1.16| 1.16| 0.85| 172.1| 129.1| 129.1| 94.7
WIA| 1665| 20.7| 80| 1.54| 1.54| 1.16| 1.16| 0.85| 172.1| 129.1| 129.1| 94.7
22S| 827| PSU| 2471| 19.1| 129| 1.43| 1.43| N/A| N/A| N/A| 107.0| N/A| N/A| N/A
DIA| 2471| 19.1| 129| 1.43| 1.43| 1.07| 1.07| 0.78| 107.0| 80.3| 80.3| 58.9
WIA| 2471| 18.9| 131| 1.41| 1.41| 1.06| 1.06| 0.78| 105.9| 79.4| 79.4| 58.2
830| PSU| 2541| 19.1| 133| 1.43| 1.43| N/A| N/A| N/A| 104.1| N/A| N/A| N/A
DIA| 2541| 19.1| 133| 1.43| 1.43| 1.07| 1.07| 0.78| 104.1| 78.0| 78.0| 57.2
WIA| 2541| 18.9| 134| 1.41| 1.41| 1.06| 1.06| 0.78| 103.0| 77.2| 77.2| 56.6
 |  | 840| PSU| 2683| 19.1| 140| 1.43| 1.43| N/A| N/A| N/A| 98.5| N/A| N/A| N/A
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---
DIA| 2683| 19.1| 140| 1.43| 1.43| 1.07| 1.07| 0.78| 98.5| 73.9| 73.9| 54.2
WIA| 2683| 18.9| 142| 1.41| 1.41| 1.06| 1.06| 0.78| 97.5| 73.1| 73.1| 53.6
PW930| PSU| 2458| 19.1| 129| 1.43| 1.43| N/A| N/A| N/A| 107.6| N/A| N/A| N/A
DIA| 2458| 19.1| 129| 1.43| 1.43| 1.07| 1.07| 0.78| 107.6| 80.7| 80.7| 59.2
WIA| 2458| 18.9| 130| 1.41| 1.41| 1.06| 1.06| 0.78| 106.4| 79.8| 79.8| 58.5
PW940| PSU| 2612| 19.1| 137| 1.43| 1.43| N/A| N/A| N/A| 101.2| N/A| N/A| N/A
DIA| 2612| 19.1| 137| 1.43| 1.43| 1.07| 1.07| 0.78| 101.2| 75.9| 75.9| 55.7
WIA| 2612| 18.9| 138| 1.41| 1.41| 1.06| 1.06| 0.78| 100.2| 75.1| 75.1| 55.1
27S| 827| PSU| 2699| 21.0| 129| 1.57| 1.57| N/A| N/A| N/A| 107.7| N/A| N/A| N/A
DIA| 2699| 21.0| 129| 1.57| 1.57| 1.18| 1.18| 0.86| 107.7| 80.8| 80.8| 59.2
WIA| 2699| 21.0| 129| 1.57| 1.57| 1.18| 1.18| 0.86| 107.7| 80.8| 80.8| 59.2
830| PSU| 2776| 21.0| 132| 1.57| 1.57| N/A| N/A| N/A| 104.7| N/A| N/A| N/A
DIA| 2776| 21.0| 132| 1.57| 1.57| 1.18| 1.18| 0.86| 104.7| 78.5| 78.5| 57.6
WIA| 2776| 21.0| 132| 1.57| 1.57| 1.18| 1.18| 0.86| 104.7| 78.5| 78.5| 57.6
840| PSU| 2932| 21.0| 140| 1.57| 1.57| N/A| N/A| N/A| 99.2| N/A| N/A| N/A
DIA| 2932| 21.0| 140| 1.57| 1.57| 1.18| 1.18| 0.86| 99.2| 74.4| 74.4| 54.5
WIA| 2932| 21.0| 140| 1.57| 1.57| 1.18| 1.18| 0.86| 99.2| 74.4| 74.4| 54.5
PW930| PSU| 2683| 21.0| 128| 1.57| 1.57| N/A| N/A| N/A| 108.4| N/A| N/A| N/A
DIA| 2683| 21.0| 128| 1.57| 1.57| 1.18| 1.18| 0.86| 108.4| 81.3| 81.3| 59.6
WIA| 2683| 21.0| 128| 1.57| 1.57| 1.18| 1.18| 0.86| 108.4| 81.3| 81.3| 59.6
PW940| PSU| 2852| 21.0| 136| 1.57| 1.57| N/A| N/A| N/A| 101.9| N/A| N/A| N/A
DIA| 2852| 21.0| 136| 1.57| 1.57| 1.18| 1.18| 0.86| 101.9| 76.4| 76.4| 56.1
WIA| 2852| 21.0| 136| 1.57| 1.57| 1.18| 1.18| 0.86| 101.9| 76.4| 76.4| 56.1
FMT| PSU| 2592| 34.5| 75| 2.57| 2.57| N/A| N/A| N/A| 184.3| N/A| N/A| N/A
DIA| 2592| 34.5| 75| 2.57| 2.57| 1.93| 1.93| 1.42| 184.3| 138.2| 138.2| 101.3
WIA| 2592| 34.5| 75| 2.57| 2.57| 1.93| 1.93| 1.42| 184.3| 138.2| 138.2| 101.3
39S| 827| PSU| 4108| 34.6| 119| 2.58| 2.58| N/A| N/A| N/A| 116.6| N/A| N/A| N/A
DIA| 4108| 34.6| 119| 2.58| 2.58| 1.94| 1.94| 1.42| 116.6| 87.4| 87.4| 64.1
 |  |  | WIA| 4108| 34.6| 119| 2.58| 2.58| 1.94| 1.94| 1.42| 116.6| 87.4| 87.4| 64.1
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---
830| PSU| 3847| 30.6| 126| 2.28| 2.28| N/A| N/A| N/A| 110.1| N/A| N/A| N/A
DIA| 3847| 30.7| 125| 2.29| 2.29| 1.72| 1.72| 1.26| 110.5| 82.9| 82.9| 60.8
WIA| 3847| 30.6| 126| 2.28| 2.28| 1.71| 1.71| 1.26| 110.1| 82.6| 82.6| 60.6
840| PSU| 3858| 28.6| 135| 2.13| 2.13| N/A| N/A| N/A| 102.6| N/A| N/A| N/A
DIA| 3858| 28.8| 134| 2.15| 2.15| 1.61| 1.61| 1.18| 103.3| 77.5| 77.5| 56.8
WIA| 3858| 28.7| 134| 2.14| 2.14| 1.61| 1.61| 1.18| 103.0| 77.2| 77.2| 56.6
PW930| PSU| 4099| 35.3| 116| 2.63| 2.63| N/A| N/A| N/A| 119.2| N/A| N/A| N/A
DIA| 4099| 35.0| 117| 2.61| 2.61| 1.96| 1.96| 1.44| 118.2| 88.7| 88.7| 65.0
WIA| 4099| 34.9| 117| 2.60| 2.60| 1.95| 1.95| 1.43| 117.9| 88.4| 88.4| 64.8
PW940| PSU| 3967| 31.1| 128| 2.32| 2.32| N/A| N/A| N/A| 108.5| N/A| N/A| N/A
DIA| 3967| 30.9| 128| 2.31| 2.31| 1.73| 1.73| 1.27| 107.8| 80.9| 80.9| 59.3
WIA| 3967| 30.8| 129| 2.30| 2.30| 1.72| 1.72| 1.26| 107.5| 80.6| 80.6| 59.1
49S| 827| PSU| 4773| 40.2| 119| 3.00| 3.00| N/A| N/A| N/A| 116.6| N/A| N/A| N/A
DIA| 4773| 40.2| 119| 3.00| 3.00| 2.25| 2.25| 1.65| 116.6| 87.4| 87.4| 64.1
830| PSU| 4906| 40.2| 122| 3.00| 3.00| N/A| N/A| N/A| 113.4| N/A| N/A| N/A
DIA| 4906| 40.2| 122| 3.00| 3.00| 2.25| 2.25| 1.65| 113.4| 85.1| 85.1| 62.4
840| PSU| 5179| 40.2| 129| 3.00| 3.00| N/A| N/A| N/A| 107.5| N/A| N/A| N/A
DIA| 5179| 40.2| 129| 3.00| 3.00| 2.25| 2.25| 1.65| 107.5| 80.6| 80.6| 59.1
PW930| PSU| 4911| 49.5| 99| 3.69| 3.69| N/A| N/A| N/A| 139.5| N/A| N/A| N/A
DIA| 4911| 49.6| 99| 3.70| 3.70| 2.78| 2.78| 2.04| 139.8| 104.9| 104.9| 76.9
PW940| PSU| 5304| 49.5| 107| 3.69| 3.69| N/A| N/A| N/A| 129.2| N/A| N/A| N/A
DIA| 5304| 49.6| 107| 3.70| 3.70| 2.78| 2.78| 2.04| 129.5| 97.1| 97.1| 71.2
65S| 830| PSU| 6530| 54.4| 120| 4.06| 4.06| N/A| N/A| N/A| 115.3| N/A| N/A| N/A
DIA| 6530| 54.7| 119| 4.08| 4.08| 3.06| 3.06| 2.25| 116.0| 87.0| 87.0| 63.8
840| PSU| 6533| 50.7| 129| 3.78| 3.78| N/A| N/A| N/A| 107.4| N/A| N/A| N/A
 |  |  | DIA| 6533| 50.9| 128| 3.80| 3.80| 2.85| 2.85| 2.09| 107.9| 80.9| 80.9| 59.3
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---
80S| 830| PSU| 7335| 68.5| 107| 5.11| 5.11| N/A| N/A| N/A| 129.3| N/A| N/A| N/A
DIA| 7335| 68.5| 107| 5.11| 5.11| 3.83| 3.83| 2.81| 129.3| 97.0| 97.0| 71.1
840| PSU| 7771| 68.5| 113| 5.11| 5.11| N/A| N/A| N/A| 122.0| N/A| N/A| N/A
DIA| 7771| 68.5| 113| 5.11| 5.11| 3.83| 3.83| 2.81| 122.0| 91.5| 91.5| 67.1

References

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