PROFIL ENVIRONNEMENTAL PRODUIT RESICLIC

Registration Number: RSTX-00082-V01.01-FR

Information and Referentials: www.pep-ecopassport.org

Date of Issue: 04/2025

Validity Period: 5 years

Independent verification of declaration and data, in accordance with ISO 14025:2006

Critical review of the PCR conducted by a panel of experts.

PEP conforms to standards NF C08-100-1:2016 and EN 50693:2019 or NF E38-500:2022.

Document compliant with ISO 14025: 2006.

General Information

Product of Reference

The reference product for this environmental declaration is an indoor lighting fixture with the commercial reference luminaire 622470. Its technical characteristics are as follows:

Technical Characteristic	Value
Description technique	Recessed tertiary luminaire equipped with an LED SMD module
Description of components and accessories supplied	Direct/Symmetrical Low Luminance Diffuser, Steel Sheet Body
Light source	Integrated LED Module
Number of light source(s) required	1 over the reference lifetime of the luminaire
Control gear	Integrated
Number of control gear(s) required	1 over the reference lifetime of the luminaire
Luminous flux	4060 lumens
Nominal operating voltage	220-240 V
Color temperature of sources	4000 K
Ingress protection rating (IP)	40
Impact resistance rating (IK)	4
Luminous efficacy	145 lm/W
Power	28 W
Assigned lifetime	72000 h
Luminaire usage duration	28.8 years
Application	Indoor / Offices
Product mass	2.494436 kg
Packaging mass	0.15414 kg
Geographical representativeness	Manufactured in China. Distribution, installation, use, and end-of-life in France.
Temporal representativeness	Manufacturing data representative of 2025

Functional Unit

"To provide lighting delivering an artificial luminous flux normalized to 1000 lumens over a reference lifetime of 35,000 hours."

The reference flux is defined as one product unit divided by 0.12.

Declared Unit

"A luminaire providing an output luminous flux of 4060 lumens over a reference lifetime of 28.8 years."

Material Composition

The total product mass is 2.648576 kg, comprising 2.494436 kg for the product and 0.15414 kg for packaging. At the reference flux level, the total product mass is 0.31782912 kg. The constituent materials are:

Materials	Metals	Plastics	Others
	Cast iron	Polycarbonate (PC)	Cardboard
	84.2%	4.0%	7.7%
	Copper	Epoxy resin	Paper
	0.7%	0.5%	0.6%
	Ferrites	Polyethylene low density (LDPE)
	0.4%	0.5%
	Aluminium	Polyvinylchloride (PVC)
	0.3%	0.4%
	Tin	Silicone rubber
	<0.1%	0.3%
		Polyester resin
		<0.1%
		Polyethylene terephthalate (PET)
		<0.1%
		Phenolic resin
		<0.1%
	Divers	Divers	Divers
	<0.1%	<0.1%	<0.1%
Total	85.7%	5.9%	8.4%

Additional Environmental Information

Manufacturing

The RESICLIC luminaire is designed in compliance with the requirements of RoHS Directive (Directive 2011/65/EU) and restricts the use of lead, mercury, cadmium, hexavalent chromium, and flame retardants (PBB, PBDE).

Distribution

The mass and volume of packaging have been optimized according to the European directive on packaging. Efforts have been made to eliminate plastic in packaging, replacing it with recycled and recyclable cardboard.

Installation

The RESICLIC luminaire requires no specific installation procedure.

Usage

End of Life

Resistex is affiliated with the eco-organization ecosystem for the recycling and recovery of all its WEEE (Waste Electrical and Electronic Equipment). A service in collaboration with ecosystem is in place to collect WEEE free of charge.

Life Cycle Analysis Methodology

The Life Cycle Analysis (LCA) underpinning this Product Environmental Profile (PEP) adheres to the criteria set by PCR-ed4-FR-2021 09 06 of the PEP ecopassport® Program. The functional unit and the scenarios for distribution, use, and waste treatment comply with the assumptions defined in PSR-0014-ed2-FR-2023 07 13. The results were obtained using EIME software version 6.2 and its database from April 2024 (updated in June 2024).

Manufacturing Stage

The luminaires are assembled at the RESISTEX factory in China. The manufacturing stage considers:

Production and upstream transport of materials necessary for product and packaging manufacturing (primary and secondary), including materials that will become waste.
Industrial material processing.
Assembly, including:
- Electricity, gas, and water consumption
- Waste from assembly scraps
- Packaging waste
End-of-life treatment of waste (scraps and/or consumables).
Transport of the packaged product from the assembly site to the final logistics platform.

A recycled material content of 5.26% is considered.

Energy Model: Electricity Mix; Low voltage; 2018; China, CN

Distribution Stage

The distribution of the packaged product from the final logistics platform (Saint André de la Roche, France) to installation sites (France) was modeled by:

Transport by 27t capacity truck over a distance of 1000 km

Local/national transport scenario: PEP-PCR-ed4-EN-2021 09 06

Installation Stage

The installation phase of this product considers the end-of-life of its packaging.

Energy Model: Electricity Mix; Production mix; Low voltage; 2020; France, FR

Usage Stage

Electricity Consumption Scenario

The luminaire does not feature lighting management functionality.

The luminaire is used for 28.8 years with an annual usage of 2500 hours, totaling 72000 hours of use. With a luminaire power of 28W and a theoretical energy saving coefficient of 1, its electricity consumption over its lifetime is 2016 kWh.

Light Source Replacement

No light source replacement is necessary during the luminaire's lifetime.

Normal operating conditions for the luminaire do not require maintenance.

Energy Model: Electricity Mix; Production mix; Low voltage; 2020; France, FR

End of Life Stage

The end-of-life stage includes the transport and treatment of the luminaire and its light source. The end-of-life treatment of the luminaire was modeled using the LCA modules from the EcoSystem ESR database. This database allows for the evaluation of the environmental footprint of electrical and electronic equipment at end-of-life. 96 materials are modeled and broken down according to different flows to quantify the environmental impacts of electronic equipment end-of-life. This database, provided to manufacturers, allows for the measurement of the environmental impact of electrical equipment based on its composition. The BOM (Bill of materials) of the product, electronic boards, and cables were isolated to use ESR data specific to the end-of-life treatment of the materials contained in each element. ESR data without the benefit of virgin material substitution were used. ESR data for the category "Professional Lighting Equipment" were used.

Energy Model: Electricity Mix; Production mix; 2015-2017; France, FR (Ecosystem)

Module D - Net Benefits and Charges Beyond the System Boundaries

Charges related to recycled material content in the product during manufacturing were considered in Module D. These charges were modeled by the quantities of recycled material reported in manufacturing as positive quantities of virgin materials.

Benefits from packaging recycling at the installation stage were considered in Module D. These benefits were modeled by the quantities of recycled material reported in installation as negative quantities of virgin materials.

Benefits related to product end-of-life (recycling) were modeled using ESR data including benefits only.

Environmental Impacts

Environmental Impacts of the Reference Product at the Functional Unit Scale

The impact results presented below were obtained using the methods defined by PCR-ed4-FR-2021 09 06 and PSR-0014-ed2-FR-2023 07 13. This declaration was prepared considering the emission of a luminous flux of 1000 lumens over a reference lifetime of 35,000 hours.

Impact Indicator	Unit	Fabrication (A1-A3)	Distribution (A4)	Installation (A5)	Use (B1-B7)	End of Life (C1-C4)	Total (incl. D)	Benefits and Charges (D)
Climate change - total	kg CO2 eq	2.37E+00	3.18E-02	4.96E-02	2.18E+01	2.70E-01	2.45E+01	-5.70E-01
Climate change - fossil fuels	kg CO2 eq	2.39E+00	3.18E-02	2.01E-02	2.05E+01	2.57E-01	2.32E+01	-5.37E-01
Climate change - biogenic	kg CO2 eq	-2.21E-02	2.29E-07	2.95E-02	1.22E+00	1.26E-02	1.24E+00	-3.24E-02
Climate change - land occupation	kg CO2 eq	3.18E-05	8.47E-08	2.29E-10	0.00E+00	2.91E-08	3.19E-05	0.00E+00
Ozone depletion	kg CFC-11 eq	1.92E-07	6.64E-10	4.33E-10	2.41E-07	2.83E-08	4.63E-07	-2.20E-08
Acidification	mol H+ eq	1.57E-02	8.03E-05	6.28E-05	1.02E-01	1.49E-03	1.19E-01	-3.98E-03
Eutrophication aquatic freshwater	kg P eq	2.66E-06	2.08E-07	3.09E-07	6.81E-04	7.30E-06	6.92E-04	-3.42E-04
Eutrophication aquatic marine	kg N eq	2.12E-03	1.21E-05	2.72E-05	1.40E-02	4.63E-04	1.67E-02	-5.39E-04
Eutrophication terrestrial	mol N eq	2.35E-02	1.33E-04	1.91E-04	2.34E-01	2.42E-03	2.61E-01	-6.55E-03
Photochemical ozone formation	kg COVNM eq	7.94E-03	4.36E-05	4.43E-05	4.11E-02	7.00E-04	4.98E-02	-2.77E-03
Abiotic resource depletion - elements	kg Sb eq	6.90E-05	2.21E-08	1.18E-09	2.45E-05	9.92E-07	9.45E-05	-4.20E-05
Abiotic resource depletion - fossil fuels	MJ	2.84E+01	9.91E-01	2.36E-01	2.86E+03	4.25E+00	2.89E+03	-5.21E+00
Water use	m3 eq	3.40E-01	2.06E-03	2.81E-03	3.99E+00	8.85E+01	9.28E+01	-1.44E+02

Inventory Flow

Inventory Flow	Unit	Fabrication (A1-A3)	Distribution (A4)	Installation (A5)	Use (B1-B7)	End of Life (C1-C4)	Total (incl. D)	Benefits and Charges (D)
Primary energy renewable use, excl. primary non-renewable resources	MJ	9.86E-01	3.15E-03	3.31E-02	3.24E+02	4.25E-01	3.26E+02	-2.96E-01
Primary renewable energy resource use	MJ	3.07E-01	0.00E+00	0.00E+00	0.00E+00	0.00E+00	0.00E+00	3.07E-01	0.00E+00
Total primary renewable energy resource use	MJ	1.29E+00	3.15E-03	3.31E-02	3.24E+02	4.25E-01	3.26E+02	-2.96E-01
Primary non-renewable energy use, excl. primary non-renewable resources	MJ	2.75E+01	9.91E-01	2.36E-01	2.86E+03	4.25E+00	2.89E+03	-5.21E+00
Primary non-renewable energy resource use	MJ	9.41E-01	0.00E+00	0.00E+00	0.00E+00	0.00E+00	0.00E+00	9.41E-01	0.00E+00
Total primary non-renewable energy resource use	MJ	2.84E+01	9.91E-01	2.36E-01	2.86E+03	4.25E+00	2.89E+03	-5.21E+00
Secondary material use	kg	1.65E-02	0.00E+00	0.00E+00	0.00E+00	0.00E+00	0.00E+00	1.65E-02	0.00E+00
Renewable secondary energy use	MJ	0.00E+00	0.00E+00	0.00E+00	0.00E+00	0.00E+00	0.00E+00	0.00E+00	0.00E+00
Non-renewable secondary energy use	MJ	0.00E+00	0.00E+00	0.00E+00	0.00E+00	0.00E+00	0.00E+00	0.00E+00	0.00E+00
Net freshwater use	m³	8.14E-03	4.79E-05	1.67E-04	9.34E-02	2.48E+00	2.59E+00	-3.45E+00
Hazardous waste disposed	kg	7.70E-01	2.34E-04	8.53E-04	8.92E-01	8.04E-05	1.66E+00	4.31E-04
Non-hazardous waste disposed	kg	4.53E-01	5.20E-03	6.12E-03	4.10E+00	1.78E-03	4.57E+00	2.04E-03
Radioactive waste disposed	kg	1.27E-04	4.12E-06	1.36E-06	9.77E-04	1.41E-06	1.11E-03	8.33E-08
Components for reuse	kg	0.00E+00	0.00E+00	0.00E+00	0.00E+00	0.00E+00	0.00E+00	0.00E+00	0.00E+00
Materials for recycling	kg	1.13E-01	0.00E+00	1.68E-02	0.00E+00	1.31E-01	2.61E-01	0.00E+00
Materials for energy recovery	kg	1.32E-02	0.00E+00	0.00E+00	0.00E+00	0.00E+00	0.00E+00	1.32E-02	0.00E+00
Energy supplied to external	MJ	4.37E-03	0.00E+00	0.00E+00	0.00E+00	0.00E+00	0.00E+00	4.37E-03	0.00E+00

Optional Indicators

Impact Indicator	Unit	Fabrication (A1-A3)	Distribution (A4)	Installation (A5)	Use (B1-B7)	End of Life (C1-C4)	Total (incl. D)	Benefits and Charges (D)
Total primary energy use during life cycle	MJ	2.48E+02	8.28E+00	2.24E+00	2.65E+04	3.89E+01	2.68E+04	-4.59E+01
Fine particulate matter emissions	Décès/Kg PM2.5 eq	7.01E-07	4.86E-09	3.33E-09	2.78E-05	1.10E-07	2.86E-05	-3.76E-07
Ionizing radiation, human health	kBq U235 eq	1.31E+01	1.62E-02	6.68E-02	3.10E+03	1.60E-01	3.11E+03	1.80E+01
Ecotoxicity (freshwater)	CTUe	6.86E+01	1.33E+01	2.48E+00	2.75E+02	3.60E+01	3.96E+02	-1.64E+01
Human toxicity, carcinogenic effects	CTUh	4.89E-08	8.97E-11	1.99E-08	3.01E-08	2.85E-09	1.02E-07	-3.83E-08
Human toxicity, non-carcinogenic effects	CTUh	2.16E-06	1.16E-09	4.98E-10	7.93E-07	8.45E-08	3.03E-06	-2.56E-07
Impacts on soil quality	pas de dimension	3.46E+00	2.00E-03	2.84E-04	8.72E+00	5.82E+00	1.80E+01	-1.99E+01

Biogenic carbon content of the product: 0 kg of C

Biogenic carbon content of packaging: 0.04 kg of C

Extrapolation Rules

Range Product Presentation

The 622470 luminaires are available in 6 versions belonging to the same homogeneous environmental family. The environmental impacts of other products in the range will be estimated by weighting the environmental impacts of the reference product by extrapolation coefficients. The parameters for the different products in the range are as follows:

Product	Luminous Flux (lumens)	Power (W)	Energy Saving Coefficient	Product Mass (kg)	Structure Mass (kg)	Control Gear Mass (kg)	Light Source Mass (kg)	Packaging Mass (kg)
622470 - Reference	4060	28.00	1.00	2.49	2.29	0.10	0.04	0.15
622471	2950	28.00	1.00	2.49	2.29	0.10	0.04	0.15
622472	4040	28.00	1.00	2.49	2.29	0.10	0.04	0.15
622488	4060	28.00	1.00	2.49	2.29	0.10	0.04	0.15
622489	2950	28.00	1.00	2.49	2.29	0.10	0.04	0.15
622490	4040	28.00	1.00	2.49	2.29	0.10	0.04	0.15

Extrapolation Coefficients at the Functional Unit Scale

The extrapolation coefficients are provided for the environmental impact of the functional unit, which is the emission of a luminous flux of 1000 lumens over 35,000 hours. For each life cycle stage, the environmental impacts of the product considered are calculated by multiplying the impacts of the declaration corresponding to the reference product by the extrapolation coefficient. The "Total" column is to be calculated by summing the environmental impacts of each life cycle stage.

Product	Fabrication	Distribution	Installation	Use		End of Life	Module D
				B2	B6
622470 - Reference	0.99	1.00	1.00	1.00	1.00	1.00	0.99
622471	1.37	1.38	1.38	1.38	1.38	1.38	1.37
622472	1.00	1.00	1.00	1.00	1.00	1.00	1.00
622488	0.99	1.00	1.00	1.00	1.00	1.00	0.99
622489	1.37	1.38	1.38	1.38	1.38	1.38	1.37
622490	1.00	1.00	1.00	1.00	1.00	1.00	1.00

Extrapolation Coefficients at the Declared Unit Scale

The extrapolation coefficients are provided for the environmental impact of the declared unit (at the equipment scale). For each life cycle stage, the environmental impacts of the product considered are calculated by multiplying the impacts of the declaration corresponding to the reference product by the extrapolation coefficient.

Product	Fabrication	Distribution	Installation	Use		End of Life	Module D
				B2	B6
622470 - Reference	0.99	1.00	1.00	1.00	1.00	1.00	0.99
622471	0.99	1.00	1.00	1.00	1.00	1.00	0.99
622472	0.99	1.00	1.00	1.00	1.00	1.00	0.99
622488	0.99	1.00	1.00	1.00	1.00	1.00	0.99
622489	0.99	1.00	1.00	1.00	1.00	1.00	0.99
622490	0.99	1.00	1.00	1.00	1.00	1.00	0.99

Resistex in a few words

Resistex is a French family company founded in 1937, designing, manufacturing, and distributing innovative lighting solutions for tertiary and residential buildings, new or undergoing energy renovation. Employees are its greatest asset.

The electrical installer is our historical client and partner. Our commitment is to implement, with them, an energetically efficient, personalized lighting solution, adapted to the premises and the illuminated person, thus benefiting from the "just light".

This commitment reflects Resistex's priorities:

The significant place of the end-user in the Resistex client system.
The development of innovations to enable the expected personalization.
The important focus on green growth and energy transition.

PEP sheet model developed in collaboration with

Syndicat du luminaire - GIL

https://www.luminaire.org/

CODDE - Département du LCIE Bureau Veritas

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