SCHN-00236-V01.

01-EN - PEP ECOPASSPORT® - EASERGY CL110

Product Environmental Profile

EASERGY CL110

ENVPEP1707002_V1 - SCHN-00236-V01.01-EN 07/2017

 SCHN-00236-V01.01-EN - PEP ECOPASSPORT® - EASERGY CL110

General information

Representative product EASERGY CL110 -EMS59443

The Easergy CL110 is a battery powered thermal and humidity sensors fitted with wireless
Description of the product communication sensor using Zigbee Greenpower 2.4GHz protocol according to the IEEE 802.15.4.
The Easergy CL110 is a mobile device as defined by FCC.
To transmit measured temperature, humidity, battery voltage each 120s during 15 years up to 100
m as air free distance.
Functional unit
Consumption when device is in sleeping mode 1,5 to 2 microA. Maximum current during radio
transmission 20mA peak equivalent with 10mA during 10ms.

Constituent materials

Reference product mass 150 g including the product, its packaging and additional elements and accessories

Epoxy Resin - 2% Ferrous alloys - 9.2%

Cardboard - 20.5%

UP Polyester - 39.6%

Electronic components -
Various - 3.2% Paper - 10% 15.5%

Plastics 41.6%
Metals 9.2%
Others 49.2%

Substance assessment

Products of this range are designed in conformity with the requirements of the RoHS directive (European Directive 2011/65/EU of 8 June
2011) and do not contain, or only contain in the authorised proportions, lead, mercury, cadmium, hexavalent chromium or flame retardants
(polybrominated biphenyls - PBB, polybrominated diphenyl ethers - PBDE) as mentioned in the Directive

As the products of the range are designed in accordance with the RoHS Directive (European Directive 2002/95/EC of 27 January 2003),
they can be incorporated without any restriction in an assembly or an installation subject to this Directive.

Details of ROHS and REACH substances information are available on the Schneider-Electric Green Premium website
http://www2.schneider-electric.com/sites/corporate/en/products-services/green-premium/green-premium.page

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Additional environmental information

The EASERGY CL110 presents the following relevent environmental aspects

The product has been designed to be sustainable as well by its low consumption of its communication protocol (Zigbee
Design
Green Power) and battery embedded.
Manufacturing Manufactured at a Schneider Electric production site ISO14001 certified
Weight and volume of the packaging optimized, based on the European Union's packaging directive
Distribution Packaging weight is 32.3 g, consisting of Paper (36%), Cardboard (62,8%), PE film (1,2%).
Product distribution optimised by setting up local distribution centres
The product does not require special installation procedure and requires little to no energy to install. The disposal of
Installation
the packaging materials are accounted for during the installation phase (including transport to disposal).
Use 1 battery of 8 g to be changed every 15 years

End of life optimized to decrease the amount of waste and allow recovery of the product components and materials

This product contains NTC Probe thermal sensor (0.39g), Light guide/PU (0.07g), Magnet/Sm Co Ni coated (0.9g*4),
Membrane/PTFE (0.05g*2), Top housing (7g), Bottom housing (8.4g) to be dismantled and Gasket housing/Silicon
(0.9g), Lithium battery (16g), PCBA (8.15g), Gasket cover/Silicon (0.25g) to be depolluted, that should be separated
from the stream of waste so as to optimize end-of-life treatment.
End of life The location of these components and other recommendations are given in the End of Life Instruction document which
is available on the Schneider-Electric Green Premium website

http://www2.schneider-electric.com/sites/corporate/en/products-services/green-premium/green-premium.page

Based on “ECO’DEEE recyclability and recoverability calculation method”

Recyclability potential: 19% (version V1, 20 Sep. 2008 presented to the French Agency for Environment
and Energy Management: ADEME).

Environmental impacts

Reference life time 20 years

Product category Passive products - non-continuous operation
Installation elements EMS59443 does not require any installation operations.

Use scenario Product dissipation is 0.015 W full load, loading rate is 30% and service uptime percentage is 30%

Geographical
Worldwide
representativeness

The Modules of Technologies such as material production, manufacturing process and transport technology
Technological
used in this PEP analysis (LCA-EIME in this case) are Similar and representative of the actual type of
representativeness
technologies used to make the product in production.

Manufacturing Installation Use End of life

Electricity mix AC; Electricity mix AC;
Energy model used Electricity mix AC; Europe
Manufacturing Plant: Europe consistent; Europe consistent;
consistent; consumption
Indonesia consumption mix, at consumption mix, at
mix, at power plant; US
power plant; US power plant; US

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Compulsory indicators EASERGY CL110 - EMS59443

Impact indicators Unit Total Manufacturing Distribution Installation Use End of Life
Contribution to mineral resources depletion kg Sb eq 3.03E-04 3.03E-04 0* 0* 0* 0*
Contribution to the soil and water acidification kg SO2 eq 4.54E-03 4.32E-03 8.84E-05 9.24E-06 7.81E-05 5.14E-05

Contribution to water eutrophication kg PO43- eq 8.46E-04 7.86E-04 2.04E-05 2.17E-06 2.07E-05 1.67E-05

Contribution to global warming kg CO2 eq 1.78E+00 1.64E+00 1.94E-02 3.00E-03 7.89E-02 3.86E-02

kg CFC11
Contribution to ozone layer depletion 1.12E-06 1.12E-06 0* 1.88E-10 3.17E-09 2.17E-09
eq

Contribution to photochemical oxidation kg C2H4 eq 3.97E-04 3.72E-04 6.31E-06 1.00E-06 1.20E-05 5.38E-06

Resources use Unit Total Manufacturing Distribution Installation Use End of Life
Net use of freshwater m3 1.27E-02 1.26E-02 1.73E-06 3.67E-06 1.26E-04 3.55E-05
Total Primary Energy MJ 2.79E+01 2.61E+01 2.74E-01 4.67E-02 1.23E+00 2.66E-01

100%
90%
80%
70%
60%
50%
40%
30%
20%
10%
0%
Contribution to Contribution to Contribution to Contribution to Contribution to Contribution to Net use of Total Primary
mineral the soil and water water global warming ozone layer photochemical freshwater Energy
resources acidification eutrophication depletion oxidation
depletion

Manufacturing Distribution Installation Use End of life

Optional indicators EASERGY CL110 - EMS59443

Impact indicators Unit Total Manufacturing Distribution Installation Use End of Life
Contribution to fossil resources depletion MJ 2.12E+01 1.93E+01 2.72E-01 4.25E-02 1.24E+00 3.05E-01
Contribution to air pollution m³ 1.97E+02 1.86E+02 8.23E-01 3.29E-01 7.46E+00 2.25E+00
Contribution to water pollution m³ 1.59E+02 1.49E+02 3.18E+00 3.52E-01 4.05E+00 2.34E+00
Resources use Unit Total Manufacturing Distribution Installation Use End of Life
Use of secondary material kg 4.83E-02 4.83E-02 0* 0* 0* 0*
Total use of renewable primary energy resources MJ 2.13E+00 2.08E+00 3.65E-04 0* 4.56E-02 2.58E-04

Total use of non-renewable primary energy resources MJ 2.58E+01 2.40E+01 2.73E-01 4.67E-02 1.18E+00 2.66E-01

Use of renewable primary energy excluding renewable

MJ 2.13E+00 2.08E+00 3.65E-04 0* 4.56E-02 2.58E-04
primary energy used as raw material

Use of renewable primary energy resources used as

MJ 0.00E+00 0* 0* 0* 0* 0*
raw material

Use of non renewable primary energy excluding non

MJ 2.37E+01 2.19E+01 2.73E-01 4.67E-02 1.18E+00 2.66E-01
renewable primary energy used as raw material

Use of non renewable primary energy resources used

MJ 2.11E+00 2.11E+00 0* 0* 0* 0*
as raw material

Use of non renewable secondary fuels MJ 0.00E+00 0* 0* 0* 0* 0*

Use of renewable secondary fuels MJ 0.00E+00 0* 0* 0* 0* 0*

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Waste categories Unit Total Manufacturing Distribution Installation Use End of Life
Hazardous waste disposed kg 1.13E+00 8.47E-01 0* 3.26E-02 3.54E-03 2.48E-01
Non hazardous waste disposed kg 7.66E-01 7.50E-01 6.88E-04 1.44E-04 1.21E-02 3.16E-03
Radioactive waste disposed kg 1.29E-03 1.29E-03 4.90E-07 2.20E-07 2.31E-06 1.57E-06
Other environmental information Unit Total Manufacturing Distribution Installation Use End of Life
Materials for recycling kg 6.26E-02 6.89E-03 0* 3.21E-02 0* 2.36E-02
Components for reuse kg 0.00E+00 0* 0* 0* 0* 0*
Materials for energy recovery kg 7.67E-03 5.29E-04 0* 0* 0* 7.14E-03
Exported Energy MJ 0.00E+00 0* 0* 0* 0* 0*
* represents less than 0.01% of the total life cycle of the reference flow
Life cycle assessment performed with EIME version EIME v5.6, database version 2016-11.
The manufacturing phase is the life cycle phase which has the greatest impact on the majority of environmental indicators (based on
compulsory indicators).

Please note that the values given above are only valid within the context specified and cannot be used directly to draw up the
environmental assessment of an installation.

Registration N° SCHN-00236-V01.01-EN Drafting rules PCR-ed3-EN-2015 04 02

Verifier accreditation N° V26 Supplemented by PSR-0005-ed2-EN-2016 03 29
Information and reference
Date of issue 07/2017 www.pep-ecopassport.org
documents
Validity period 5 years
Independent verification of the declaration and data, in compliance with ISO 14025 : 2010
Internal External X
The PCR review was conducted by a panel of experts chaired by Philippe Osset (SOLINNEN)
The elements of the present PEP cannot be compared with elements from another program.
Document in compliance with ISO 14025 : 2010 « Environmental labels and declarations. Type III environmental
declarations »

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