amazon basics Carrera Smart Glasses with Alexa Owner’s Manual
- June 13, 2024
- amazon basics
Table of Contents
amazon basics Carrera Smart Glasses with Alexa
Designed for Sustainability
We’re working to make Amazon devices more sustainable—from how we build them to how customers use and eventually retire them.
Carbon Footprint
18 kg CO2e total carbon emissions
Materials
Charging stand is made from 35% recycled materials.
100% recyclable packaging (shipping packaging not included).
Energy
We invest in renewable energy that, by 2025, will be equivalent to this
device’s electricity usage.
Trade-in and Recycle
Built to last. But when you’re ready, you can trade-in or recycle your
devices. Explore Amazon Second Chance.
Life Cycle
We consider sustainability in every stage of a device’s life cycle—from sourcing raw materials to end-of-life.
Carrera Smart Glasses with Alexa total life cycle carbon emissions: 18 kg CO2e
Carbon emissions of each life cycle stage:
Life Cycle Assessment: A methodology to assess the environmental impact (e.g.,
carbon emissions) associated with life cycle stages of a product—from raw
material extraction and processing, through production, use, and disposal.
This product’s biogenic carbon emissions of 0.154 kg CO2e are included in the
total footprint calculation. The total biogenic carbon content in this product
is 0.107 kg C. Percentage values may not add up to 100% due to rounding.
Materials and Manufacturing
We account for the extraction, production, and transportation of raw materials, as well as the manufacturing, transporting, and assembling of all parts.
Recycled Materials
Charging stand is made from 35% recycled materials. The plastic is made from
49% of postconsumer recycled plastic. We incorporate recycled fabrics,
plastics, and metals into many new Amazon devices, giving new life to
materials.
Bundle accessories not included.
Recyclable Packaging
This device has 100% recyclable packaging. 99% of this device’s packaging is
made of wood fiber based materials from responsibly managed forests or
recycled sources.
Chemical Safety
Through our partnership with ChemFORWARD, we’re collaborating with industry
peers to proactively identify harmful chemicals and safer alternatives ahead
of regulations.
Suppliers
All of our assembly sites for this product have achieved UL Zero Waste to
Landfill Gold certification. This means our suppliers handle waste in
environmentally responsible ways, diverting more than 5% of their facility’s
waste from the landfill through methods other than waste to energy.
We engage suppliers who manufacture our devices or their
components—particularly final assembly sites, semiconductors, printed circuit
boards, displays, batteries, and accessories—and encourage them to increase
renewable energy use and reduce manufacturing emissions. In 2022, we received
commitments from 28 key suppliers to work with us on decarbonization, and
helped six of them develop renewable energy implementation plans for Amazon
Devices production. We are continuing to expand this program in 2023 and
beyond.
Transportation
We account for an average inbound and outbound trip that is representative of
an average device or accessory.
This includes transporting the product from final assembly to the end
customer.
Amazon Commitment
Delivering for our global customers requires Amazon to rely on a variety of
transportation solutions for long and short distances. Decarbonizing our
transportation network is a key part of meeting The Climate Pledge by 2040.
That’s why we’re actively transforming our fleet network and operations.
Product Use
We determine the expected energy consumption of a device over its lifetime and calculate the carbon emissions associated with the use of our devices.
Renewable Energy
In 2020, Amazon became the first consumer electronics company to commit to
addressing the electricity used by our devices through renewable energy
development, starting with Echo devices. We’re making investments in
additional wind and solar farm capacity that, by 2025, will be equal to the
energy use of Echo, FireTV, and Ring devices worldwide.
Alexa
With the Alexa Energy Dashboard, customers can view estimated energy usage for
their compatible thermostats and water heaters; plus, they can see a forecast
of when cleaner energy is available, so customers can plan ahead for energy-
intensive activities like running the dishwasher or dryer.
Customers can also manage the energy use of their compatible connected devices
using Routines and Hunches. Routines are short cuts for Alexa, saving you time
by grouping together a bunch of actions so you don’t have to ask for each one
individually. For example, you can set the “Alexa, good night” Routine to turn
off all your porch lights at once. Hunches is a feature that can help you save
energy without even thinking about it. Now, if Alexa has a hunch that you
forgot to turn off a light and no one is home or everyone went to bed, Alexa
can automatically turn it off for you.
End-of-Life
To model end-of-life emissions, we estimate the ratio of end products that are sent to each disposal pathway including recycling, combustion, and landfill.We also account for any emissions required to transport and/or treat the materials
Durability
We design our devices with best-in-class reliability models, so they’re more
resilient and last longer. We also release over-the-air software updates for
our customers’ devices so they don’t need to replace them as often.
Trade-in & Recycling
We make it easy for you to retire your devices. Using Amazon Trade-In, you can
trade-in your old devices for a gift card. Your retired devices will then be
either refurbished and re-sold, or recycled.
Methodology
Our approach to measuring a product’s carbon footprint?
To meet The Climate Pledge goal to be net-zero carbon by 2040, we measure and
estimate this product’s carbon footprint, and identify opportunities to
reduce its carbon emissions. Our life cycle assessment (“LCA”) models align
with internationally recognized standards, like the Greenhouse Gas (“GHG”)
Protocol Product Life Cycle Accounting and Reporting Standard2
and International Standards Organization (“ISO”) 140673.
Our methodology and product carbon footprint results are reviewed by the
Carbon Trust with reasonable assurance. All carbon footprint numbers are
estimates and we continuously improve our methodology as the science and data
available to us evolve.
What’s in an Amazon device’s product carbon footprint?
We calculate this product’s carbon footprint throughout its life cycle stages,
including materials and manufacturing, transportation, use, and end-of-life.
Two carbon footprint metrics are considered: 1) the total carbon emissions
across all life cycle stages of one device or accessory (in kilograms of
carbon dioxide equivalent, or kg CO2e), and 2) the average carbon emissions
per year used of the estimated device lifetime, in kg CO2e/use-year.
Materials and Manufacturing:
We calculate the carbon emissions from material and manufacturing based on the
list of raw materials and components to manufacture a product, namely the bill
of materials.
We account for the emissions from the extraction, production, and
transportation of raw materials, as well as the manufacturing, transporting,
and assembling of all parts. For certain components and materials, we may
collect primary data from our suppliers to supplement our industry average
data, collected from a mix of commercially and publicly available LCA
databases.
Transportation : We estimate the emissions of transporting the product from final assembly to our end customer using actual or best estimated average transportation distances and transportation modes for each device or accessory.
Use : We calculate the emissions associated with the use (i.e., electricity consumption) of this product by multiplying the total electricity consumption over a device’s estimated lifetime with the carbon emissions from the generation of 1 kWh electricity (the grid emission factor). The total energy consumption of a device is based on the average customer’s power consumption and estimated time spent in various modes of operation like playing music, playing video, idle, and low power mode. A specific customer may have a higher or lower use phase footprint associated with their device depending on their specific usage patterns.
We use country-specific grid emission factors to account for the regional variations in electricity grid mix. Learn more about how Amazon plans to decarbonize and neutralize the use phase of our connected devices by 2040.
End-of-Life : For end-of-life emissions, we account for any emissions required to transport and/or treat the materials destined to each disposal pathway (e.g., recycling, combustion, landfill).
How do we use the product carbon footprint?
The footprint helps us identify carbon reduction opportunities across this
product’s various life cycle stages. In addition, we use it to communicate our
carbon reduction progress over time—this is included in the calculation of
Amazon’s corporate carbon footprint. Learn more about Amazon corporate carbon
footprint methodology.
How often do we update a product’s carbon footprint?
After we launch a new product, we track and audit the carbon emissions of all
life cycle phases of our devices. Product sustainability fact sheets are
updated when we discover new information that changes the estimated carbon
footprint of a device by more than 5% or if it materially changes our
estimated reduction generation over generation.
Learn more about our product carbon footprint methodology and limitations in our full methodology document.
Definitions :
Biogenic carbon emissions: Carbon released as carbon dioxide or methane from
combustion or decomposition of biomass or bio-based products.
Life Cycle Assessment : A methodology to assess the environmental impact (e.g., carbon emissions) associated with life cycle stages of a product—from raw material extraction and processing, through production, use, and disposal.
Endnotes
1 Carbon Trust Certification Number: CERT-13540; LCA data version August 2023
published by Carbon Trust 2Greenhouse Gas (“GHG”) Protocol Product Life Cycle
Accounting and Reporting Standard:
https://ghgprotocol.org/product-standard
published by the Greenhouse Gas Protocol
3International Standards Organization (“ISO”) 14067:2018 Greenhouse
gases—Carbon footprint of products—Requirements and guidelines for
quantification: https://www.iso.org/standard/71206.html published by
International Standards Organization
References
- ISO 14067:2018 - Greenhouse gases — Carbon footprint of products — Requirements and guidelines for quantification
- : All Departments
- ISO 14067:2018 - Greenhouse gases — Carbon footprint of products — Requirements and guidelines for quantification
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