Climate Action

The release of the MX Mechanical wireless keyboard brought high-performance mechanical typing to advanced digital creators. Ambitious targets were established early in the design process to stay focused on achieving goals.

• Specifically designed to optimize material usage
  
• Plastic parts with 45% post-consumer recycled plastic
  
• One of our first product lines to use Low Carbon Aluminum

In 2021 we also introduced our 100% paper-based hang tabs – an innovative design solution that uses molded pulp to replace the plastic or regular cardboard used in previous designs. Unlike other paper-based hang tabs, our new design is specially reinforced to reduce the risk of tearing.

Because our new molded hang tab is 100% paper-based, it is also 100% recyclable.

In 2021, we significantly reduced the size, weight and material usage across a range of webcam packaging, with final package size reduced by up to 71%, depending on the product line. This change has also allowed us to reduce the number of pallets required for every shipment - a pallet can now take between 30% to 60% more units than before. All of this work has resulted in an estimated impact reduction of 1,773 tonnes of Carbon per year.

In 2021 we continued to scale up our efforts to eliminate single-use plastic from our packaging. We developed a single-use plastic policy, highlighting our commitment to reducing plastic packaging as much as technically possible across all product ranges, with the long-term goal to eliminate it completely.

By switching to brown box packaging for products sold online we successfully eliminated over 1.1 million plastic clamshells from our portfolio this year.

In 2021 we continued to scale up our efforts to eliminate single-use plastic from our packaging. We developed a single-use plastic policy, highlighting our commitment to reducing plastic packaging as much as technically possible across all product ranges, with the long-term goal to eliminate it completely.

We switched from using plastic to protect our packaging boxes in distribution to using tissue paper wrap in a number of product lines. This led to the elimination of more than 2.6 million plastic shipping bags from our portfolio of existing product lines, and an additional 3 million for newly-launched products.

In 2021 we continued to scale up our efforts to eliminate single-use plastic from our packaging. We developed a single-use plastic policy, highlighting our commitment to reducing plastic packaging as much as technically possible across all product ranges, with the long-term goal to eliminate it completely.

We also eliminated the use of plastic bags inside the retail box for many of our product lines, using tissue wrap and soft paper-based bags to protect the product & accessories instead. This has resulted in the elimination of a further 5.8 million plastic bags.

In 2021 we launched ERGO M575, featuring an innovative packaging solution that delivers a 34% lower carbon footprint than its predecessor the M570, while reducing the weight of single-use plastic by 98%Remaining plastic in M575: Tamper seal label (0.05g), and PP Lamination on the primary box (approx. 1g).

By integrating assessments of environmental impact throughout the design and development process, the team arrived at a solution that completely removed the need for a plastic tray or plastic bag, instead of using an internal protective wrap made from paper to protect the product. To further reduce impact and material waste, all setup instructions were printed directly onto this protective paper-based wrap.

Our target is to achieve 100% renewable electricity (RE) in our own business by 2030 by purchasing renewable electricity to match our electricity demand.

We continue to be recognized by the Environmental Protection Agency (EPA) in the United States.

Our Major Suppliers are the factory suppliers who accounted for 80% of our direct spend on manufacturing. We survey our Major Suppliers each year to understand and assess their electricity footprint and share current methodologies for modeling the carbon impact of manufacturing facilities.

In 2020, we invited our Major Suppliers to join us and support the transition to renewable electricity. To help and support suppliers, we launched the Logitech-Suppliers Renewable Electricity Buyers Club and we have established and co-hosted a portal every year since then, to enable suppliers to access and bulk purchase high quality, third-party certified renewable electricity.

In 2022 and 2023, Logitech was recognized as a Supplier Engagement Leader by CDP, a global nonprofit that runs the global disclosure system for investors, companies, cities, states and regions to manage their environmental impacts.

For global organizations like Logitech, our carbon reduction goals go well beyond our factory doors, they are interdependent on the success of our suppliers. Only by working together with out suppliers, can we drive environmental action at scale.

We continue to advocate for the transition away from fossil fuels and the adoption of renewables as part of our membership of the RE100 Initiative and work to accelerate change towards zero-carbon grids at scale.

RE100 is led by The Climate Group in partnership with CDP. RE100’s mission is to accelerate a global shift to clean energy and zero-carbon grids – delivering a cleaner, healthier future for all. RE100 members work together to advocate for 100% renewable electricity worldwide, in the shortest timeline possible, and work in partnership with others to address policy and market challenges.

We joined the RE100 initiative in November 2019 to collaborate with other industry leaders in pursuit of the global movement to catalyze uptake of 100% renewable electricity.

ForestNation partners with companies to engage people in tree planting in areas of community need in the developing world. As part of celebrating Earth Day 2020 and Earth Day 2021, we partnered with ForestNation to activate employees in local environmental activities and finance the planting of 16,400 trees in a 16-ha plantation near Kwekanga Village in Tanzania. To celebrate Earth Day 2023, Logitech for Business offered to plant trees on behalf of customers who opted in to plant trees with us. More than 150 organizations opted in and we are now financing the plantation of 7,480 additional trees, as a result of this campaign.

The plantation continues to help local communities develop livelihoods based on fruit harvesting and trade, while helping to restore a thriving forested and biodiverse plantation in an area that had been prone to illegal deforestation in the past.

Logitech has purchased offsets from a number of windfarm projects in China. These projects utilise wind turbines to generate electricity with zero greenhouse gas emissions. In the absence of these projects, electricity delivered to the grid would have been generated by grid-connected power plants running on fossil fuels.

Note: the image shown here is the CGN Inner Mongolia Zhurihe project (VCS 1181)

This 121 MW geothermal power plant is located in Darajat, West Java, Indonesia. It increases the share of renewable energy in Indonesia by providing electrical energy to meet growing national and regional demand and is consistent with the Indonesian Government’s energy diversification and sustainable development goals.

The electricity that is produced from this plant is supplied to the Java-Madura-Bali (JAMALI) interconnected grid system and displaces greenhouse gases that would have otherwise been created by fossil fuel-based electricity generation by other generators on the grid.

This project comprises 50,061 ha of forestry in Zunyi City, Guizhou Province of China. The project site was originally a barren hill, which has now been planted with native trees (China fir, Cypresses, Yunnan pine and Masson pine).

The project sequesters carbon through biomass growth while also providing native habitat for numerous species and livelihood opportunities in the local communities where individuals are now engaged in forest management activities. This project is certified to the Verified Carbon Standard (VCS) as well as the Climate, Community and Biodiversity Standard (CCBS).

Logitech has purchased offsets from a number of windfarm projects in China. These projects utilise wind turbines to generate electricity with zero greenhouse gas emissions. In the absence of these projects, electricity delivered to the grid would have been generated by grid-connected power plants running on fossil fuels.

Note: the image shown here is the Inner Mongolia Wujier Phase I Wind Power Project (VCS 1947)

The primary objective of the Agrocortex REDD Project is to avoid the unplanned deforestation of the 186,369.66 ha project area, consisting of 100% Amazon rainforest, in the States of Acre and Amazonas, South-western Amazon.

In addition to contributing to the long-term conservation of the region, the Agrocortex REDD Project also has the function of establishing a barrier against the advancement of deforestation, making an important contribution to the conservation of South-western Amazon biodiversity and also to climate regulation in Brazil and South America.

The Project is located in Gansu Province, in the People's Republic of China. The purpose of the Project is to generate electricity using wind power to deliver to the Northwest China Power Grid, which is predominated powered by fossil fuel power plants, including coal-fired plants.

This generated electricity will partially displace electricity currently generated from grid connected conventional fossil fuel based thermal power plants, while reducing emissions of 430,588 tCO₂ annually.

This project is located in the inner Mongolia Autonomous Region of China and the core goal of the project is to deliver Improved Forest Management (IFM) through the conversion of logged forest to protected forest. The project area comprises more than 20,000 ha of land with wildlife species such as Birch(Betula platyphylla) and Larch (Larix gmelinii). Before the implementation of the project activity, the trees in the project area were harvested in compliance with a government-approved timber management plan.

The implementation of the project converted the area to a protected forest to avoid the emission of greenhouse gases associated with logging. The project activities also contribute to environmental management in the area, including but not limited to biodiversity conservation and soil erosion control.

This solar energy plant in Vietnam’s sunny Ninh Thuan province is helping to catalyze Vietnam's transition towards a greener, low-carbon future. It offers an alternative, renewable energy, to replace the need for traditional fossil fuels and boosts local economies by employing individuals from the local community paying them sustainable wages to end poverty.

Located in Lampung province at the southern tip of the island of Sumatra, the Ulubelu geothermal power plant generates over 860 GWh of renewable electricity for Indonesia’s Sumatra Interconnected Grid. At the same time as reducing emissions, this project contributes to sustainable development and helps facilitate Indonesia’s low-carbon energy transition.

The Rimba Raya Biodiversity Reserve is an area of tropical peatland on the Island of Borneo in Indonesia. This project protects 65,000 hectares of carbon-dense tropical forest and peatlands by halting deforestation of rainforest areas originally designated for palm oil plantations. By supporting this project, Logitech is helping to enable the conservation of a REDD+ carbon sink and the protection of 105,000 endangered Borneo Orangutans. The project also provides livelihood opportunities for more than 2,500 households living within the project area—through education and agroforestry conservation—improving food security, income opportunities, health care, and education—all with the support of carbon finance.

This project is establishing new forestry by planting trees on lands that were barren for at least 10 years prior to the implementation of the project. Activities such as intensive farming, grazing or timber harvesting are no longer allowed in the project area and have been replaced with tree planting and forest management. The project creates job opportunities for local residents, who acquire the necessary skills in forest planting and management through vocational training. By restoring these forest ecosystems, the project contributes to the reduction of greenhouse emissions, conserves biodiversity and water and mitigates soil erosion, whilst helping local communities transition towards more sustainable livelihoods.

Qinghai Province is part of the Tibetan Plateau and lies at an altitude of more than 3,000m above sea level. Hailed as the "roof of the world", and the "water tower of Asia", the Plateau is a natural habitat for rare animals and a focus of China's efforts to create nature reserves, forests, grasslands and wetlands. Qinghai Lake is the largest lake in China and sits at the crossroads of several bird migration routes across Asia. The project is located to the east of the lake and will restore 14,000 hectares with the planting of a resilient mix of native tree species including Spruce, Juniper, Pine, Poplar, Birch and Elm on barren or degraded lands, where there is no natural renewal or reforestation. The project also aims to support the local community by providing technical skills and training.

The Shanghai Cixi Wind Project generates renewable electricity in Hangzhou Bay. Thirty-three turbines, each of which has the capacity of 1.5 MW, generate an average of 105 GWh per year, with an associated annual carbon reduction of approximately 100,000 tCO₂e. By generating renewable electricity, this project is helping to achieve China’s national goal to source 35% of the country’s electricity from renewable sources by 2030.

The goal of this project is to converse logged trees to protected forest.The area of the project activity is 20,526 ha, the species involved in the project are Birch(Betula platyphylla) and Larch (Larix gmelinii). Before the implementation of the project activity, the trees are logged based on a valid and verifiable government-approved timber management plan for harvesting the project area. The implementation of the project activity converses the trees to protected forest to reduce the GHG emissions. The project activity will contribute to the environment (biodiversity conservation and soil erosion control), thus contribute to sustainable development.

Henan Province is one of the poorer regions in China, where local communities routinely use coal-fired cooking stoves. This project distributes solar cookstoves to families in eight rural villages across Henan province to reduce the use of coal for household cooking and therefore avoid greenhouse gas emissions, improve air quality and save families valuable time and money, which would otherwise be spent collecting and purchasing fuel.

This afforestation project involves the planting of more than 23397.80 ha of barren lands in Zhangye City with native tree species. The Project's aim is to increase carbon removals and contribute to local sustainable development. The implementation of the afforestation project will generate greenhouse gas emission removals and mitigate climate change; improve soil and water conservation and forest cover; enhance local biodiversity by increasing the connectivity of forests, and bring income and job opportunities for local communities and residents.

Phase 1 of the Inner Mongolia Ximeng Zheligentu Wind Farm Project involves the construction of a windfarm in Inner Mongolia, China. The windfarm will utilize wind resources for electricity generation and the electricity generated from the project will be sold to West Inner Mongolia Power Grid, which is an integral part of the North China Power Grid. The estimated annual net electricity output and average annual emission reductions of the proposed project are 99.48GWh and 104,941tCO₂e per annum, respectively.

The Inner Mongolia Wujier Wind Power Project is a grid-connected renewable energy project in Ordos city, Inner Mongolia, in the People’s Republic of China. The purpose of the Project is to utilise a wind power facility to generate zero greenhouse gas (GHG) emissions electricity for the North China Power Grid thereby displacing more carbon-intensive electricity from fossil fuels. The project is expected to reduce greenhouse gas emissions by an estimated 120,508 tCO₂e per year during the first crediting period by displacing electricity from the grid.

The Haikou Rural Methane Digesters Project is located in Haikou City, Hainan Province, China. The project helps farmers to build methane digesters that can be used to ensure organic matter including manure and wastes decays anaerobically. The project reduces greenhouse gas emissions in two ways: 1) the recovery and utilization of biogas from digested slurry in the biogas digester and 2) the biogas is used as thermal energy to replace the fossil fuel (coal), which is currently used to meet local households’ daily energy needs for cooking and heating.