Securitron Eco Power Supply Environmental Product Declaration (EPD) EPD 10.21.16

Environmental Product Declaration EPD_Securitron_EcoPower2 EPS-05 - Securitron

User Manual: Securitron EcoPower Power Supply - Environmental Product Declaration (EPD) Literature

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Environmental Product Declaration

Securitron

EcoPower Power Supply

ASSA ABLOY is committed to

providing products and services

that are environmentally sound

throughout the entire production

process and the product lifecycle.

Our unconditional aim is to make

sustainability a central part of our

business philosophy and culture,

but even more important is the job

of integrating sustainability into our

business strategy. The

employment of EPDs will help

architects, designers and LEED-

APs select environmentally

preferable door openings.

ASSA ABLOY will continue our

efforts to protect the environment

and health of our customers/end

users and will utilize the EPD as

one means to document those

efforts.

Environment

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Product definition and information about building physics

Information about basic material and the material's origin

Description of the product's manufacturing

Indication of product processing

Information about the in-use conditions

Life cycle assessment results

Testing results and verifications

The PCR review was conducted by

INTERNAL EXTERNAL

1 Exclusions: EPDs do not indicate that any environmental or social performance benchmarks are met, and there may be impacts that they do not encompass. LCAs do not typically address the site-

specific environmental impacts of raw material extraction, nor are they meant to assess human health toxicity. EPDs can complement but cannot replace tools and certifications that are designed to

address these impacts and/or set performance thresholds , e.g., Type 1 certifications, health assessments and declarations, environmental impact assessments, etc. Accuracy of Results: EPDs

regularly rely on estimations of impacts, and the level of accuracy in estimation of effect differs for any particular product line and reported impact. Comparability

: EPDs are not comparative assertions

and are either not comparable or have limited comparability when they cover different life cycle stages, are based on different product category rules or are missing relevant environmental impacts.

EPDs from different programs may not be comparable.

CONTENTS OF THE

DECLARATION

The Independent Expert Committee, SVR

This declaration was independently verified in accordance with ISO 14025

by Underwriters Laboratories

UL Environment

This life cycle assessment was independently verified in accordance with

ISO 14044 and the reference PCR by

PROGRAM OPERATOR

UL Environment

Environmental Product Declaration

According

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to

This declaration is an environmental product declaration (EPD) in accordance with ISO 14025. EPDs rely on

Life Cycle Assessment (LCA) to provide information on a number of environmental impacts of products over

their life cycle. Exclusions: EPDs do not indicate that any environmental or social performance benchmarks

are met, and there may be impacts that they do not encompass. LCAs do not typically address the site-

specific environmental impacts of raw material extraction, nor are they meant to assess human health

toxicity. EPDs can complement but cannot replace tools and certifications that are designed to address

these impacts and/or set performance thresholds – e.g. Type 1 certifications, health assessments and

declarations, environmental impact assessments, etc. Accuracy of Results: EPDs regularly rely on

estimations of impacts, and the level of accuracy in estimation of effect differs for any particular product line

and reported impact. Comparability: EPDs are not comparative assertions and are either not comparable or

have limited comparability when they cover different life cycle stages, are based on different product

category rules or are missing relevant environmental impacts. EPDs from different programs may not be

comparable.

Door and door hardware

ISO 14025

REFERENCE PCR

DATE OF ISSUE

October 21, 2016

PERIOD OF VALIDITY

5 Years

DECLARATION HOLDER

ASSA ABLOY/ Securitron

DECLARATION NUMBER

DECLARED PRODUCT

Securitron EcoPower Power Supply

UL Environment and Institut Bauen und Umwelt e.V. (IBU). Product Category

Rules Part B: Requirements on the Environmental Product Declaration for

Electronic Access Control Systems

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ISO 14025

Technical Data

Battery Type

Operating Temperature

Installation

Mechanical Compatibility

Shipping Weight

Certification

Input Voltage

Output Voltage

110V - 240V

14V

EcoPower is ideal for a wide range of applications. The product can be surfaced mounted, recessed into drywall, or

mounted above a drop ceiling. This product is designed to provide power to an electrified lock, in either a fail-safe or fail-

secure configuration.

Product Definition and Information

Product Description

Lead Acid

-4 t+122F [-20 to +50C]

Surface mounted / Recessed in drywall / Mounted above

Designed to work with low-power, electrified lock

1.7 lbs [0.77 kg]

UL 294, UL 603, ULC S533

Standby Power

Output Current

<10mW @ 115V; <20mW @ 230V

0.5A peak; 0.1A continuous

Application

Product name: EcoPower

Product characteristic: power supply

EcoPower is an efficient, fully featured power supply:

- Extremely low power consumption

- 24 hours of battery backup power

- Universal voltage input capabilities

- Aesthetic design allows for convinient installation near the lock

- Product contains several small screws for installation, as well as paper instructions. Otherwise, no other accessory

materials are required for installation or use.

For the declared product, the following technical data in the delivery status must be provided with reference to the test

standard:

Technical Data

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ISO 14025

62.61%

30.14%

3.47%

3.79%

Electronics

Plastics

Environmental and Health During Manufacturing

Percentage in mass (%)

Manufacture

Other

Total

Product Processing/ Installation

Steel

100.00%

ASSA ABLOY is committed to producing and distributing door opening solutions with minimal environmental impact,

where health & safety is the primary focus for all employees and associates.

• Environmental operations, GHG, energy, water, waste, VOC, surface treatment and H&S are being routinely

monitored. Inspections, audits, and reviews are conducted periodically to ensure that applicable standards are met and

environment management program effectiveness is evaluated.

• Code of Conduct covers human rights, labor practices and decent work. Management of ASSA ABLOY is aware of

their environmental roles and responsibilities, providing appropriate training, supporting accountability and recognizing

outstanding performance.

• Any waste metals during machining are separated and recycled. The waste from the water-based painting process is

delivered to waste treatment plant.

• The factory in Phoenix, AZ has certification of Environmental Management to ISO 14001:2004 and Occupational

Health and Safety to OHSAS 18001:2007.

EcoPower power supplies are distributed through and installed by trained installation technicians, such as locksmiths,

carpenters etc. adhering to local/national standards and requirements.

The primary manufacturing processes are made by Tier 1 suppliers and the final manufacturing processes occur in

Phoenix, AZ. The electronics are produced in China and the remainder of the components are produced in the United

States. The components come from processes like stamped steel, turning, zinc and steel casting. Final assembly takes

place in Phoenix, AZ.

Base Materials / Ancillary Materials

Material

Delivery Status

Power supplies are delivered in a box size - 6.5in x 6.5in x 3.875in.

The standards that can be applied for EcoPower power supply are:

- UL 294 - Standard for Access Control System Units

- UL 603 - Standard for Power Supplies for Use with Burglar-Alarm Systems

- ULC S533 - Standard for Egress Door Securing and Releasing Devices

Placing on the Market / Application Rules

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Material

Quantity (% By Weight)

Cardboard

EcoPower power supplies are packed in a cardboard box with dimensions: 6.5in x 6.5in x 3.875in.

Other

-

Total

Extraordinary Effects

Condition of Use

Environmental and Health During Use

There is no harmful emissive potential. No damage to health or impairment is expected under normal use corresponding

to the intended use of the product.

No cleaning on annual maintenance is required.

Reference Service Life

The reference service life is 10 years, calculated based on a 40000 cycle endurance test.

Packaging

100%

100%

Water

Contains no substances that have any impact on water in case of flood. Electric operation of the device will be influenced

negative.

Mechanical destruction

No danger to the environment can be anticipated during mechanical destruction.

Re-use Phase

The product can be moved from one door to another during the reference service life, thus enabling re-use.

The majority of components are electronics and a battery. The product can be mechanically dissembled to separate the

different materials. 34% of the materials used are recyclable. The plastic components can be used for energy recovery

in an incineration plant.

Disposal

Further Information

Hanchett Entry Systems Inc, ASSA ABLOY

10027 S. 51st Street Ste. 102

Phoenix, AZ 85044

Fire

Suitable for use in fire and smoke doors (EN 14846).

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End of Life

Conversion factor to 1 kg

Repair

Replacement

Disposal

Reuse-

Recovery-

Recycling

potential

Transport

Value

0.621

Declared unit

Mass

Refurbishment

Maintenance

Description of the System Boundary Stages Corresponding to the PCR

(X = Included; MND = Module Not Declared)

D

X

X

X

X

Waste

processing

B6

B7

A1

MND

MND

MND

Operational

energy use

X

C4

Use Stage

MND

Unit

unit of electronic cylinder

-

1.611

C1

C2

*This includes provision of all materials, products and energy, packaging processing and its transport, as well as waste

processing up to the end-of waste state or disposal of final residues.

A3

A4

A5

B1

Use

X

B2

B3

B4

B5

A2

In the assessment, all available data from the production process are considered, i.e. all raw materials used, auxiliary

materials (e.g. lubricants), thermal energy consumption and electric power consumption - including material and energy

flows contributing less than 1% of mass or energy (if available). In case a specific flow contributing less than 1% in mass

or energy is not available, worst case assumption proxies are selected to represent the respective environmental

impacts. Impacts relating to the production of machines and facilities required during production are out of the scope of

this assessment.

Background data

For life cycle modeling of the considered products, the GaBi 6 Software System for Life Cycle Engineering, developed by

thinkstep, is used GaBi 6 2013. The GaBi-database contains consistent and documented datasets which are

documented in the online GaBi-documentation GaBi 6 2013D. To ensure comparability of results in the LCA, the basic

data of GaBi database were used for energy, transportation and auxiliary materials.

Estimates and Assumptions

In the End-of-Life phase, for all the materials which can be recycled, a recycling scenario with 100% collection rate was

assumed.

Cut-off Criteria

1

Name

MND

MND

System Boundary

MND

Product Stage Construction

Process Stage

Transport from

gate to the site

Construction/

installation

process

Operational

water use

Deconstruction

/demolition

X

X

X

X

The declaration refers to the functional unit of 1 unit (or piece) of EcoPower Power Supply, as specified in Part B

requirements on the EPD for Electronic Access Control Systems.

kg

C3

End of Life Stage*

Benefits and

Loads Beyond

the System

Boundaries

Raw material

supply

Transport

Manufacturing

Declared Unit

Life Cycle Assessment

This is a cradle to gate with options Environmental Product Declaration. The following life cycle phases were considered:

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Data Quality

The data sources used are complete and representative of North America in terms of the geographic and technological

coverage and are a recent vintage (i.e. less than ten years old). The data used for primary data are based on direct

information sources of the manufacturer. Secondary data sets were used for raw materials extraction and processing,

end of life, transportation, and energy production flows. Wherever secondary data is used, the study adopts critically

reviewed data for consistency, precision, and reproducibility to limit uncertainty.

Period Under Review

Allocation was determined on a per unit basis.

A comparison or an evaluation of EPD data is only possible if all data sets to be compared were created according to EN

15804 and the building context, respectively the product-specific characteristics of performance, are taken into account.

Environmental delarations from different programs may not be comparable. Full conformance with the PCR for North

American Builders Hardware products allows EPD comparability only when all stages of a Builders Hardware product's

life cycle have been considered. However, variations and deviations are possible.

Comparability

The period under review is January through March of 2015, the first 3 months of production of this product.

Allocation

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* This scenario is based on the worst case scenario: A fail-safe configuration with zero unlocks per cycle.

h

4.71

kWh

1.97

W

26.67

LCA: Modeling Scenarios and Additional Technical Information

Installation into the building (A5)

-

kg

kg

Value

0.4101

kg

Name

26.28

End of life (C1-C4)

10

years

Reference Service Life

Other resources

-kg

Reference Service Life

Other energy carriers

-

MJ

Electricity consumption

-

kWh

h

0.15 kg

Unit

kg

VOC in the air

Name

Value

-

Unit

0.007

W

Dust in the air

Landfilling

Energy recovery

0.1871

kg

Operational Energy Use (B6)*

Standby Power Consumption

Charging Power Consumption

Standby Cycle Time

Charge Cycle Time

Average Power Consumption

Annual Energy Consumption

Reference Service Life

Lifetime Energy Consumption

0.30

W

2.628

kWh

10

years

-

kg

Output substance following waste treatment

on-site

Water consumption

-

m3

Auxiliary

-

kg

Collected as mixed construction waste

Collected separately

Name

Recycling

Reuse kg

kg

0.2106

Unit

0.1871

0.3978

Material loss

-

kg

UnitNameValue Value

The following technical information is a basis for the declared modules or can be used for developing specific scenarios

in the context of a building assessment if modules are not declared.

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Parameter Parameter

TRACI 2.1 Impact Assessment

CML 4.1 Impact Assessment

Resource Use

0.0E+00

0.0E+00

3.6E+02

0.0E+00

3.6E+02

0.0E+00

0.0E+00

0.0E+00

0.0E+00

B6

2.0E+01

2.1E-10

1.8E-01

2.5E-03

B6

2.0E+01

0.0E+00

Total use of nonrenewable

primary energy resources

EP

A1-A3

5.6E+00

2.2E-07

A4

4.6E-02

1.7E-12

A5

1.4E-01

C2

2.9E-03

C3

0.0E+00

0.0E+00

0.0E+001.9E-01

0.0E+00

2.3E-07

2.9E+02

POCP

Formation potential of

tropospheric ozone

photochemical oxidants

kg ethane-Eq. 1.4E-03

2.5E-06

Parameter Unit A1-A3 A4 A5 C2

AP Air Acidification potential for air

emissions kg SO2-Eq. 1.9E-02 2.3E-04 7.1E-04 1.4E-05

3.2E-05 6.8E-05 2.0E-06

6.8E-03

1.9E-02

EP Eutrophication potential kg(PO4)3-Eq. 1.2E-03 4.0E-05 2.0E-04

0.0E+00

0.0E+00 0.0E+00

2.7E-02 0.0E+00

0.0E+00

PENRE

Nonrenewable primary energy

as energy carrier

MJ, lower calorific

value 4.6E+01 5.9E-01 1.6E+00 3.7E-02 0.0E+00

PENRM

Nonrenewable primary energy

as material utilization

MJ, lower calorific

value 2.9E+00 0.0E+00 0.0E+00 0.0E+00 0.0E+00

PENRT

2.7E-02

2.0E-03 0.0E+00

2.6E+00 4.6E-02 1.4E-01 2.9E-03 0.0E+00

1.7E-12 1.3E-11 1.1E-13

3.9E-05 0.0E+00

4.1E-05 0.0E+00

1.0E-05 0.0E+00

1.0E-09 0.0E+00

2.6E-02 0.0E+00

Results below contain the resource use throughout the life cycle of the product.

0.0E+00

Results shown below were calculated using TRACI 2.1 Methodology.

3.8E-02

3.6E-02

3.2E-01 7.6E-03 8.5E-03 4.8E-04 0.0E+00 3.9E-04 0.0E+00

0.0E+000.0E+00 1.0E-04

1.4E+00

C4

2.2E-02

D

GWP

ODP

LCA Results

0.0E+00

1.4E-11 1.1E-13 0.0E+00 8.8E-14 0.0E+00

1.5E-05 2.0E-04 9.6E-07 0.0E+00 3.7E-05 0.0E+00

2.8E-04 8.0E-04 1.7E-05

Unit

Global warming potential kg CO2-Eq.

Depletion potential of the

stratospheric ozone layer kg CFC-11 Eq.

Acidification potential for air

emissions kg SO2-Eq.

AP Air

6.8E+00 8.1E-02

8.2E-14 0.0E+00

Parameter Unit A1-A3 A4 A5 C2 C3 C4

2.5E-02 0.0E+00Global warming potential kg CO2-Eq.

1.5E-01 5.1E-03

Eutrophication potential kg N-Eq.

Smog formation potential kg O3-Eq.

Fossil Fuel Depletion

SP

FFD MJ-surplus

Results shown below were calculated using CML 2001 - April 2013 Methodology.

Parameter D

GWP

ODP Depletion potential of the

stratospheric ozone layer kg CFC-11 Eq. 3.7E-10 0.0E+001.7E-10

0.0E+001.2E+01 0.0E+00 3.3E-03

PERT Total use of renewable

primary energy resources

MJ, lower calorific

value 8.8E+00 0.0E+00 6.1E-01 0.0E+00 0.0E+00

ADPE

Abiotic depletion potential for non-

fossil resources kg Sb-Eq. 6.7E-04 1.9E-11 1.9E-07 1.2E-12 0.0E+00

ADPF Abiotic depletion potential for

fossil resources MJ 4.2E+01 5.8E-01 1.4E+00 3.6E-02 0.0E+00

D

2.0E-03 0.0E+00

PERM

Renewable primary energy

resources as material

utilization

MJ, lower calorific

value 2.9E+00 0.0E+00 0.0E+00 0.0E+00 0.0E+00 0.0E+00 0.0E+00

PERE

Renewable primary energy as

energy carrier

MJ, lower calorific

value

C3

0.0E+00

C4B6Parameter

5.9E+00 0.0E+00 6.1E-01

MJ, lower calorific

value 4.9E+01 5.9E-01 1.6E+00 3.7E-02 0.0E+00

0.0E+00

RSF Use of renewable secondary

fuels

MJ, lower calorific

value 0.0E+00 0.0E+00 0.0E+00 0.0E+00 0.0E+00 0.0E+00 0.0E+00

SM Use of secondary material

MJ, lower calorific

value

0.0E+00 0.0E+00 0.0E+00 0.0E+00 0.0E+00

0.0E+00 0.0E+00

FW Use of net fresh water m

3

2.6E+00 0.0E+00 3.5E-02 0.0E+00 0.0E+00 1.2E-03 0.0E+00

NRSF Use of nonrenewable

secondary fuels

MJ, lower calorific

value 0.0E+00 0.0E+00 0.0E+00 0.0E+00 0.0E+00

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0.0E+00

Output Flows and Waste Categories

0.0E+00

HWD Hazardous waste disposed kg

NHWD Non-hazardous waste

disposed kg 0.0E+00 0.0E+00

The operational energy use (B6) is the main driver of environmental impacts in the majority of categories, except for

ozone depletion and eutrophication potential, where, the production (A1-A3) life cycle stage drives the results.

Manufacturing impacts (A3) are primarily driven by electricity use. Raw materials, particularly the circuit board and

polycabonate drive the production stage (A1), as these materials are the primary materials within the product.

Transportation impacts (A2) have a negligble impact within the production stage. The figure below shows the graphical

representation of these impacts across the product's life cycle stages:

0.0E+00

0.0E+00

0.0E+00

4.7E-07

0.0E+00

0.0E+00

4.6E-05

0.0E+00

MER Materials for energy recovery kg

1.3E-03

0.0E+00

4.5E-02

0.0E+00

MFR 0.0E+000.0E+00

0.0E+00

0.0E+00

Radioactive waste disposed kg

Interpretation

Results below contain the output flows and wastes throughout the life cycle of the product.

Parameter Parameter Unit A1-A3 A4 A5 C2 C3 C4 DB6

0.0E+00 0.0E+00

0.0E+00

0.0E+00

Exported electrical energy MJ 0.0E+00 0.0E+00 0.0E+00 0.0E+00 0.0E+00 0.0E+00

0.0E+00

0.0E+00

0.0E+00

0.0E+00 0.0E+00 0.0E+00 0.0E+00 0.0E+00 0.0E+000.0E+00

0.0E+00

0.0E+00kg

Materials for recycling kg

0.0E+00

0.0E+000.0E+00

0.0E+00

RWD

CRU Components for re-use

0.0E+00 1.2E-01

7.8E-03 0.0E+00EEE Exported thermal energy MJ 3.5E-04 0.0E+00 1.6E-02 0.0E+00 0.0E+00

0.0E+00 0.0E+00 0.0E+00 0.0E+00 0.0E+00 0.0E+00 0.0E+00

EEE 0.0E+00

0.0E+00

0%

10%

20%

30%

40%

50%

60%

70%

80%

90%

100%

Global warming

potential

Depletion potential

of the stratospheric

ozone layer

Acidification

potential for air

emissions

Eutrophication

potential

Smog formation

potential

Fossil Fuel Depletion

TRACI Impacts by Life Cycle Stage

A1-A3 A4 A5 B6 C2 C3 C4 D

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l

PCR Part B

UL Environment and Institut Bauen und Umwelt e.V. (IBU). Product Category Rules Part B:

Requirements on the Environmental Product Declaration for Electronic Access Control Systems

l

GaBi 6

thinkstep.one: GaBi Software-System and Databases for Life Cycle Engineering. version 6.110.

Copyright, TM. Stuttgart, Echterdingen. 1992-2015

References

l

PCR Part A

UL Environment and Institut Bauen und Umwelt e.V., Königswinter (pub.): Product Category Rules

for Construction Products from the range of Environmental Product Declarations of Institut Bauen

und Umwelt (IBU), Part A: Calculation Rules for the Life Cycle Assessment and Requirements on

the Background Report. July 2014, version 1.3

l

ISO 14044

ISO 14044:2006-10, Environmental management — Life cycle assessment — Requirements and

guidelines.

l

EN 15804

EN 15804:2012-04: Sustainability of construction works — Environmental Product Declarations —

Core rules for the product category of construction product

l

ISO 14025

ISO 14025:2011-10, Environmental labels and declarations — Type III environmental declarations

— Principles and procedures.

l

ISO 14040

ISO 14040:2009-11, Environmental management — Life cycle assessment — Principles and

framework.

l

TRACI 2.1

US EPA. Tools for the Reduction and Assessment of Chemical Inventory. Version 2.1.

l

CML 2001

Center of Environmental Science of Leiden University impact categories and characterisation metho

l

ULE 2013

UL Environment, General Program Instructions, 2013.