Dyson Confirms 2022 Launch of Air-Purifying Headphones

  • Publish date: Wednesday، 30 March 2022

Delivering Pure Air and Pure Audio

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The Dyson Zone™ is Dyson’s first wearable purifier, capturing city pollution including gas, allergens and particulate matter and cancelling unwanted noise with advanced noise cancellation and pure, high-fidelity audio.

HULLAVINGTON, UK 30.03.2022 – Today, Jake Dyson has unveiled the Dyson Zone™ air-purifying headphones, Dyson’s first step into wearable technology. The Dyson Zone™ is a set of noise cancelling, high fidelity over-ear headphones which simultaneously deliver immersive sound to the ears, and purified airflow to the nose and mouth. The result of over a decade of air quality research and development, the Dyson Zone™ air purifying headphones simultaneously tackle the urban issues of air quality and noise pollution.

As the world’s urban population continues to grow, the World Health Organisation (WHO) estimates that 9 in 10 people globally breathe air that exceeds WHO guideline pollutant limits[1]. Where NO2 pollution in cities decreased during the Covid-19 pandemic[2], levels have quickly returned to normal, or exceeded pre-pandemic levels across many global cities[3]. It is estimated that more than 100m people, around 20% of the European population, are exposed to long-term noise exposure above WHO guidance[4].

Jake Dyson, Research and Development Director said:

“Air pollution is a global problem – it affects us everywhere we go. In our homes, at school, at work and as we travel, whether on foot, on a bike or by public or private transport. The Dyson Zone™ purifies the air you breathe on the move. And unlike face masks, it delivers a plume of fresh air without touching your face, using high-performance filters and two miniaturised air pumps. After six years in development, we’re excited to deliver pure air and pure audio, anywhere.”

6 years & 500 prototypes

The Dyson Zone™ air-purifying headphones are borne of Dyson’s 30 years of expertise in airflow, filtration and motors technologies and deep understanding of indoor and outdoor air quality. The compressors in each earcup draw air through the dual-layer filters and project two streams of purified air to the wearer’s nose and mouth, channelled through the non-contact visor. Sculpted returns on the visor ensure purified airflow is kept near to the nose and mouth and diluted as little as possible by external crosswinds. The Dyson Zone™ delivers rich, immersive audio and relief from unwanted city noise thanks to advanced active noise cancelling (ANC), low distortion and a neutral frequency response, to faithfully replicate music or audio as the creator intended.

Originally a snorkel-like clean air mouthpiece paired with a backpack to hold the motor and inner workings, the Dyson Zone™ air-purifying headphones evolved dramatically over its six years in development. More than 500 prototypes saw one motor initially placed at the nape become two compressors, one in each ear-cup and the evolution of the snorkel mouthpiece into an effective, contact-free visor that delivers clean air without full-face contact – a brand-new clean air delivery mechanism.

Developing a non-contact solution was a must for Dyson engineers, to avoid the discomfort and irritation often associated with full-contact alternatives. The visor, therefore, was a critical element. The airflow pathways and visor design are central to delivering pure air. The geometries of the visor and the visor returns, alongside the central mesh that diffuses the two jets of airflow, ensure that the purified air exiting the filters is effectively delivered to the nose and mouth in crosswinds, and for the wearer’s specific facial shape. Going beyond existing testing methods, Dyson engineers use a breathing manikin fitted with medical-grade mechanical lungs and sensing equipment, which ‘inhales’ pollution replicating human breathing patterns in a controlled chamber. They then measure the pollution level within the nose and throat to determine the filtration efficacy of those particles which would otherwise end up in Frank’s artificial lung.

Precision-engineered compressors within the earcups draw air through the dual-layer filters, intelligently designed to fit within the considerable space constraints of a headphone. The negatively charged electrostatic filter media captures ultrafine particles such as allergens, and particles from sources such as brake dust, industry combustion and construction whilst a potassium-enriched carbon layer captures city gas pollutants like NO2 and SO2. The compressor channels the purified air to the wearer’s nose and mouth via the contact-free visor, formed with flexible returns that to channel the flow of purified air to the wearer’s nose and mouth.

A scientific approach

A first foray into the world of audio, Dyson engineers took a scientific approach, choosing not to rely on a ‘golden listener’ approach that many others do. Dyson’s team of audio engineers and acousticians sought to engineer excellent audio led by metrics, backed up with extensive listening trials. The result: pure, rich audio and advanced noise cancellation. Despite the space constraints inherent with a wearable device, Dyson engineers developed a high performing neodymium electroacoustic system within each earcup. A wide frequency response, precise left-left balance and distortion significantly below what can be detected by the human ear, offer a faithful reproduction as the musicians or creators intended.

Through solving a problem of Dyson’s own creation, the engineers have developed an advanced noise cancellation system. Together, the device’s passive attenuation and the ANC, with its unique array of microphones, reduce unwanted environmental noise and motor tones to provide advanced noise cancellation at home, at work and on-the-go. Large, angled ear cushions mould around the listener’s ear, with a foam density and headband clamp force engineered specifically for both comfort and optimal noise reduction.

Engineered for comfort

Every head on the planet is unique. As Dyson’s first wearable, Dyson engineers had to think about comfort in a new way. Detailed research into head and face geometries meant engineers could measure how the Dyson Zone™ air purifying headphones would sit on and perform on different heads– informing the clamp force of the headband, the geometry and materials of the visor, the adjustability of the machine and much more.

Taking inspiration from the shape and design of a horse’s saddle, the Dyson Zone™ is engineered to distribute weight over the sides of the head, rather than on the top. A saddle typically curves over the horse’s spine distributing the load through contact with the areas left and right of the backbone – a format used for the central cushion on the headband.

The development of the ear cushions is important for three reasons: comfort, on-head stability and passive attenuation. Foam is an obvious choice for ear cushions but Dyson engineers dug deep into the make-up of different foams to choose the most suitable material based on density, rate of compression and spring-back rate – all of which change the way pressure translates onto the head. When choosing the optimal foam for the ear and headband cushions, it was important to balance the comfort it provides, its stability when moulded to the ear, but critically the acoustic benefit it provides. Moulding around the ear increases the size of the contact points providing better sealing – and inhibiting additional urban noise entering the ear. The cushion is purposefully flatter than conventional ear cushions for both attenuation and comfort, and the cushions are angled in line with the angle of the ear on the head for optimal comfort.

A global effort

The Dyson Zone™ air-purifying headphones have been engineered by teams across the UK, Singapore, Malaysia and China, with a particular focus on software on our South East Asia campuses. The app development and integration was a critical project to ensure a smooth connection journey and provide intelligent, meaningful air and noise pollution tracking features. Robustness and durability are central to a product that leaves the home with the wearer. As with all Dyson machines, the Dyson Zone™ air-purifying headphones have been tested to the extremes – in temperature-controlled chambers, drop-testing, material and fabric wear testing, button robustness and much more. Our expert test engineers in the Dyson Malaysia Development Centre are integral to this, as is the geography – putting it through its paces in warmer climates and higher humidity compared to UK-based testing.

The Dyson Zone™ air-purifying headphones will be available online at Dyson.ae and sa.Dyson.com, and in Dyson Demo Stores. Timings will vary by geography. Full product specification and further details on availability will be announced in the coming months.

- ENDS -

NOTES TO EDITORS

For more information, please visit the UAE Dyson Zone™ webpage or the KSA Dyson Zone™ webpage. For all press enquiries, please contact rania.maroun@dyson.com

About the Dyson Zone™ air-purifying headphones

  • Radical new format for delivering purified air and high-fidelity audio on-the-go
  • Electrostatic filtration captures 99% of particle pollution as small as 0.1 microns, such as dust, pollen and bacteria
  • Potassium-enriched carbon filter captures city gases like NO2, SO2 and O3.
  • Contact-free air delivery visor channels two streams of purified air to the nose and mouth, engineered specifically for usage outdoors and in crosswinds
  • The smallest in any Dyson machine to date, two motors sit in each earcup and are the beating heart of the Dyson Zone™ air-purifying headphones
  • Advanced ANC and a high performing neodymium electroacoustic system deliver rich, immersive audio that faithfully replicates audio as the artist or creator intended
  • 15 undergraduate students from the Dyson Institute of Engineering and Technology worked on the Dyson Zone™ project, supporting disciplines as diverse as acoustics development, electronics and airflow systems
  • 3 ANC modes: Isolation, Conversation and Transparency
    • Isolation mode: highest level of active noise cancellation to provide a rich, immersive audio experience – for example when you might be needing to concentrate on the task at hand.
    • Conversation mode activates when you dip the visor – automatically turns off the purification to conserve battery power and amplifies conversation
    • Transparency mode is designed to allow you to be aware of your surroundings, by amplifying key sounds like emergency service sirens or informational announcements.
  • 4 air purification modes: low, medium, high and Auto. Because different levels of exertion require different breathing patterns, the Dyson Zone™ air-purifying headphones are informed by on-board accelerometers and in Auto mode, will toggle automatically between high, medium and low purification speeds as needed.
  • 4 formats:
    • Combined air purification, audio playback and ANC – visor remains attached
    • The device can be used in for audio-only – the visor can be moved
    • For scenarios that require community face coverings, the community face covering attachment forms a sealed solution – this is provided in the box
    • For geographies or situations that require FFP2-compliant face coverings, an FFP2 face covering attachment meets the required filtration standard – this is provided in the box

Dyson AQ history

For 30 years, Dyson engineers have been removing particles from airflow. It started with cyclonic technology and the world’s first bagless vacuum, and has since developed into cordless, robotic and omni-directional vacuum cleaners, hand dryers, purifiers, and humidifier purifiers. Over the last decade, since the birth of the Dyson Environmental Care category, researching indoor and outdoor air quality has been high on Dyson’s agenda.

In 2009, Dyson launched the first bladeless fan and our engineers quickly turned their attention not just to moving air, but to cooling or heating people and spaces with clean air. The first Dyson purifiers launched in 2015 and have since developed to incorporate formaldehyde destruction, hygienic humidification and full-machine HEPA filtration. The Dyson Zone™ air-purifying headphones are Dyson’s next step, entering the worlds of wearable technology and audio, taking the high-quality filtration performance our machines offer to users on-the-go.

Alongside product development, Dyson collaborates with research bodies and academic institutions to advance global understanding of air quality globally. In 2019, Dyson engineers developed the Dyson AQ backpack for the Breathe London Wearables project. 250 schoolchildren wore the backpack fitted with particle and gas sensors, GPS and a battery pack to monitor their pollution exposure on their journeys to and from school. The data continues to support further research into air quality, and since the study, 31% of participating children changed their route to school or transport method to minimise exposure to pollution.

Since then, the Dyson Air Quality backpack has been used in more than 14 cities worldwide to educate individuals on their personal air quality exposure, as part of the Dyson Investigates Air Quality: Lockdown project. The backpacks are currently being used across sub-Saharan Africa as part of the CAPPA project, led by Queen Mary University London, to understand asthma rates among African children. Dyson works with a range of leading academics and experts across the globe, who together form the Dyson Scientific Advisory Board. The James Dyson Foundation champions the role of air quality education in schools, offering at-home, primary and secondary-level educational resources, helping students recognise and understand air pollution indoors and outdoors, and tackle the problem in a hands-on way, by engineering their own air pollution monitor. For more information, please visit the James Dyson Foundation website.

About Dyson

Dyson is a global research and technology company with engineering, research, development, manufacturing and testing operations in Singapore, the UK, Malaysia, Mexico, China and the Philippines. Having started in a coach house in the UK, Dyson has consistently grown since it was established in 1993. Today, it has a global headquarters in Singapore and two technology campuses in the UK spanning over 800 acres in Malmesbury and Hullavington. Since 1993, Dyson has invested more than £1bn in its Wiltshire offices and laboratories that house the early stage research, design and development of future Dyson technology. Dyson remains family-owned and employs over 13,000 people globally including a 5,000 strong engineering team. It sells products in 84 markets internationally in over 318 Dyson Demo stores, 50 of which opened around the world in 2021 including a new Dyson Virtual Reality Demo Store.

  

Dyson is investing £2.75bn in the business to conceive revolutionary products and technologies, and this year will spend £600m of this investment in technology, facilities, and laboratories. Dyson has global teams of engineers, scientists and software developers focused on the development of solid-state battery cells, high-speed electric digital motors, sensing and vision systems, robotics, machine learning technologies and A.I. investment. Since inventing the first cyclonic bagless vacuum cleaner - DC01- in 1993, Dyson has created problem solving technologies for haircare, air purification, robotics, lighting and hand drying. 

The Dyson Institute of Engineering and Technology is a new model for engineering education combining the academic rigour of a traditional university with hands-on and real-world experience of working on live product and technology projects inside a global technology company. Dyson’s 156 undergraduate engineers are paid a salary from day one and pay no tuition fees.

Founded in 2002, the James Dyson Foundation is an international charity that empowers aspiring engineers, supports engineering in education and invests in medical research, donating over £140m to charitable causes to date. The James Dyson Award is the Foundation’s annual international design competition and is open to current and recent design and engineering students. Since starting in 2005, the Award has supported more than 285 inventions, providing funds to support their commercialisation.

Key Facts and Figures

  • Dyson’s latest technologies for creating a healthy home, such as the Dyson V15 Detect Vacuum and Dyson Pure Cool Formaldehyde, are the result of a £130m investment, we will invest an additional £2.75bn over the next five years.
  • Dyson manufactures a product every 1.26 seconds.
  • Last year Dyson manufactured its 100 millionth digital motor. The motors are five times faster than a Formula One engine and the technology lies at the heart of our machines, powering our popular cordless vacuum cleaners, the Airblade hand dryers, the iconic Supersonic hair dryer and the Airwrap styler.
  • Dyson undertook one of the broadest studies of Air Quality during lockdown, using our backpacks in 14 cities and 1,576,658 connected purifiers in homes around the world.
  • 70% of James Dyson Award international winners are commercialising their projects, against a backdrop where 90% of start-ups fail.
 

[4] https://www.eea.europa.eu/articles/noise-pollution-is-a-major

Dyson Confirms 2022 Launch of Air-Purifying Headphones Delivering Pure Air and Pure Audio

The Dyson Zone™ is Dyson’s first wearable purifier, capturing city pollution including gas, allergens and particulate matter and cancelling unwanted noise with advanced noise cancellation and pure, high-fidelity audio.

HULLAVINGTON, UK 30.03.2022 – Today, Jake Dyson has unveiled the Dyson Zone™ air-purifying headphones, Dyson’s first step into wearable technology. The Dyson Zone™ is a set of noise cancelling, high fidelity over-ear headphones which simultaneously deliver immersive sound to the ears, and purified airflow to the nose and mouth. The result of over a decade of air quality research and development, the Dyson Zone™ air purifying headphones simultaneously tackle the urban issues of air quality and noise pollution.

As the world’s urban population continues to grow, the World Health Organisation (WHO) estimates that 9 in 10 people globally breathe air that exceeds WHO guideline pollutant limits[1]. Where NO2 pollution in cities decreased during the Covid-19 pandemic[2], levels have quickly returned to normal, or exceeded pre-pandemic levels across many global cities[3]. It is estimated that more than 100m people, around 20% of the European population, are exposed to long-term noise exposure above WHO guidance[4].

Jake Dyson, Research and Development Director said:

“Air pollution is a global problem – it affects us everywhere we go. In our homes, at school, at work and as we travel, whether on foot, on a bike or by public or private transport. The Dyson Zone™ purifies the air you breathe on the move. And unlike face masks, it delivers a plume of fresh air without touching your face, using high-performance filters and two miniaturised air pumps. After six years in development, we’re excited to deliver pure air and pure audio, anywhere.”

6 years & 500 prototypes

The Dyson Zone™ air-purifying headphones are borne of Dyson’s 30 years of expertise in airflow, filtration and motors technologies and deep understanding of indoor and outdoor air quality. The compressors in each earcup draw air through the dual-layer filters and project two streams of purified air to the wearer’s nose and mouth, channelled through the non-contact visor. Sculpted returns on the visor ensure purified airflow is kept near to the nose and mouth and diluted as little as possible by external crosswinds. The Dyson Zone™ delivers rich, immersive audio and relief from unwanted city noise thanks to advanced active noise cancelling (ANC), low distortion and a neutral frequency response, to faithfully replicate music or audio as the creator intended.

Originally a snorkel-like clean air mouthpiece paired with a backpack to hold the motor and inner workings, the Dyson Zone™ air-purifying headphones evolved dramatically over its six years in development. More than 500 prototypes saw one motor initially placed at the nape become two compressors, one in each ear-cup and the evolution of the snorkel mouthpiece into an effective, contact-free visor that delivers clean air without full-face contact – a brand-new clean air delivery mechanism.

Developing a non-contact solution was a must for Dyson engineers, to avoid the discomfort and irritation often associated with full-contact alternatives. The visor, therefore, was a critical element. The airflow pathways and visor design are central to delivering pure air. The geometries of the visor and the visor returns, alongside the central mesh that diffuses the two jets of airflow, ensure that the purified air exiting the filters is effectively delivered to the nose and mouth in crosswinds, and for the wearer’s specific facial shape. Going beyond existing testing methods, Dyson engineers use a breathing manikin fitted with medical-grade mechanical lungs and sensing equipment, which ‘inhales’ pollution replicating human breathing patterns in a controlled chamber. They then measure the pollution level within the nose and throat to determine the filtration efficacy of those particles which would otherwise end up in Frank’s artificial lung.

Precision-engineered compressors within the earcups draw air through the dual-layer filters, intelligently designed to fit within the considerable space constraints of a headphone. The negatively charged electrostatic filter media captures ultrafine particles such as allergens, and particles from sources such as brake dust, industry combustion and construction whilst a potassium-enriched carbon layer captures city gas pollutants like NO2 and SO2. The compressor channels the purified air to the wearer’s nose and mouth via the contact-free visor, formed with flexible returns that to channel the flow of purified air to the wearer’s nose and mouth.

A scientific approach

A first foray into the world of audio, Dyson engineers took a scientific approach, choosing not to rely on a ‘golden listener’ approach that many others do. Dyson’s team of audio engineers and acousticians sought to engineer excellent audio led by metrics, backed up with extensive listening trials. The result: pure, rich audio and advanced noise cancellation. Despite the space constraints inherent with a wearable device, Dyson engineers developed a high performing neodymium electroacoustic system within each earcup. A wide frequency response, precise left-left balance and distortion significantly below what can be detected by the human ear, offer a faithful reproduction as the musicians or creators intended.

Through solving a problem of Dyson’s own creation, the engineers have developed an advanced noise cancellation system. Together, the device’s passive attenuation and the ANC, with its unique array of microphones, reduce unwanted environmental noise and motor tones to provide advanced noise cancellation at home, at work and on-the-go. Large, angled ear cushions mould around the listener’s ear, with a foam density and headband clamp force engineered specifically for both comfort and optimal noise reduction.

Engineered for comfort

Every head on the planet is unique. As Dyson’s first wearable, Dyson engineers had to think about comfort in a new way. Detailed research into head and face geometries meant engineers could measure how the Dyson Zone™ air purifying headphones would sit on and perform on different heads– informing the clamp force of the headband, the geometry and materials of the visor, the adjustability of the machine and much more.

Taking inspiration from the shape and design of a horse’s saddle, the Dyson Zone™ is engineered to distribute weight over the sides of the head, rather than on the top. A saddle typically curves over the horse’s spine distributing the load through contact with the areas left and right of the backbone – a format used for the central cushion on the headband.

The development of the ear cushions is important for three reasons: comfort, on-head stability and passive attenuation. Foam is an obvious choice for ear cushions but Dyson engineers dug deep into the make-up of different foams to choose the most suitable material based on density, rate of compression and spring-back rate – all of which change the way pressure translates onto the head. When choosing the optimal foam for the ear and headband cushions, it was important to balance the comfort it provides, its stability when moulded to the ear, but critically the acoustic benefit it provides. Moulding around the ear increases the size of the contact points providing better sealing – and inhibiting additional urban noise entering the ear. The cushion is purposefully flatter than conventional ear cushions for both attenuation and comfort, and the cushions are angled in line with the angle of the ear on the head for optimal comfort.

A global effort

The Dyson Zone™ air-purifying headphones have been engineered by teams across the UK, Singapore, Malaysia and China, with a particular focus on software on our South East Asia campuses. The app development and integration was a critical project to ensure a smooth connection journey and provide intelligent, meaningful air and noise pollution tracking features. Robustness and durability are central to a product that leaves the home with the wearer. As with all Dyson machines, the Dyson Zone™ air-purifying headphones have been tested to the extremes – in temperature-controlled chambers, drop-testing, material and fabric wear testing, button robustness and much more. Our expert test engineers in the Dyson Malaysia Development Centre are integral to this, as is the geography – putting it through its paces in warmer climates and higher humidity compared to UK-based testing.

The Dyson Zone™ air-purifying headphones will be available online at Dyson.ae and sa.Dyson.com, and in Dyson Demo Stores. Timings will vary by geography. Full product specification and further details on availability will be announced in the coming months.

- ENDS -

NOTES TO EDITORS

For more information, please visit the UAE Dyson Zone™ webpage or the KSA Dyson Zone™ webpage. For all press enquiries, please contact rania.maroun@dyson.com

About the Dyson Zone™ air-purifying headphones

  • Radical new format for delivering purified air and high-fidelity audio on-the-go
  • Electrostatic filtration captures 99% of particle pollution as small as 0.1 microns, such as dust, pollen and bacteria
  • Potassium-enriched carbon filter captures city gases like NO2, SO2 and O3.
  • Contact-free air delivery visor channels two streams of purified air to the nose and mouth, engineered specifically for usage outdoors and in crosswinds
  • The smallest in any Dyson machine to date, two motors sit in each earcup and are the beating heart of the Dyson Zone™ air-purifying headphones
  • Advanced ANC and a high performing neodymium electroacoustic system deliver rich, immersive audio that faithfully replicates audio as the artist or creator intended
  • 15 undergraduate students from the Dyson Institute of Engineering and Technology worked on the Dyson Zone™ project, supporting disciplines as diverse as acoustics development, electronics and airflow systems
  • 3 ANC modes: Isolation, Conversation and Transparency
    • Isolation mode: highest level of active noise cancellation to provide a rich, immersive audio experience – for example when you might be needing to concentrate on the task at hand.
    • Conversation mode activates when you dip the visor – automatically turns off the purification to conserve battery power and amplifies conversation
    • Transparency mode is designed to allow you to be aware of your surroundings, by amplifying key sounds like emergency service sirens or informational announcements.
  • 4 air purification modes: low, medium, high and Auto. Because different levels of exertion require different breathing patterns, the Dyson Zone™ air-purifying headphones are informed by on-board accelerometers and in Auto mode, will toggle automatically between high, medium and low purification speeds as needed.
  • 4 formats:
    • Combined air purification, audio playback and ANC – visor remains attached
    • The device can be used in for audio-only – the visor can be moved
    • For scenarios that require community face coverings, the community face covering attachment forms a sealed solution – this is provided in the box
    • For geographies or situations that require FFP2-compliant face coverings, an FFP2 face covering attachment meets the required filtration standard – this is provided in the box

Dyson AQ history

For 30 years, Dyson engineers have been removing particles from airflow. It started with cyclonic technology and the world’s first bagless vacuum, and has since developed into cordless, robotic and omni-directional vacuum cleaners, hand dryers, purifiers, and humidifier purifiers. Over the last decade, since the birth of the Dyson Environmental Care category, researching indoor and outdoor air quality has been high on Dyson’s agenda.

In 2009, Dyson launched the first bladeless fan and our engineers quickly turned their attention not just to moving air, but to cooling or heating people and spaces with clean air. The first Dyson purifiers launched in 2015 and have since developed to incorporate formaldehyde destruction, hygienic humidification and full-machine HEPA filtration. The Dyson Zone™ air-purifying headphones are Dyson’s next step, entering the worlds of wearable technology and audio, taking the high-quality filtration performance our machines offer to users on-the-go.

Alongside product development, Dyson collaborates with research bodies and academic institutions to advance global understanding of air quality globally. In 2019, Dyson engineers developed the Dyson AQ backpack for the Breathe London Wearables project. 250 schoolchildren wore the backpack fitted with particle and gas sensors, GPS and a battery pack to monitor their pollution exposure on their journeys to and from school. The data continues to support further research into air quality, and since the study, 31% of participating children changed their route to school or transport method to minimise exposure to pollution.

Since then, the Dyson Air Quality backpack has been used in more than 14 cities worldwide to educate individuals on their personal air quality exposure, as part of the Dyson Investigates Air Quality: Lockdown project. The backpacks are currently being used across sub-Saharan Africa as part of the CAPPA project, led by Queen Mary University London, to understand asthma rates among African children. Dyson works with a range of leading academics and experts across the globe, who together form the Dyson Scientific Advisory Board. The James Dyson Foundation champions the role of air quality education in schools, offering at-home, primary and secondary-level educational resources, helping students recognise and understand air pollution indoors and outdoors, and tackle the problem in a hands-on way, by engineering their own air pollution monitor. For more information, please visit the James Dyson Foundation website.

About Dyson

Dyson is a global research and technology company with engineering, research, development, manufacturing and testing operations in Singapore, the UK, Malaysia, Mexico, China and the Philippines. Having started in a coach house in the UK, Dyson has consistently grown since it was established in 1993. Today, it has a global headquarters in Singapore and two technology campuses in the UK spanning over 800 acres in Malmesbury and Hullavington. Since 1993, Dyson has invested more than £1bn in its Wiltshire offices and laboratories that house the early stage research, design and development of future Dyson technology. Dyson remains family-owned and employs over 13,000 people globally including a 5,000 strong engineering team. It sells products in 84 markets internationally in over 318 Dyson Demo stores, 50 of which opened around the world in 2021 including a new Dyson Virtual Reality Demo Store.

  

Dyson is investing £2.75bn in the business to conceive revolutionary products and technologies, and this year will spend £600m of this investment in technology, facilities, and laboratories. Dyson has global teams of engineers, scientists and software developers focused on the development of solid-state battery cells, high-speed electric digital motors, sensing and vision systems, robotics, machine learning technologies and A.I. investment. Since inventing the first cyclonic bagless vacuum cleaner - DC01- in 1993, Dyson has created problem solving technologies for haircare, air purification, robotics, lighting and hand drying. 

The Dyson Institute of Engineering and Technology is a new model for engineering education combining the academic rigour of a traditional university with hands-on and real-world experience of working on live product and technology projects inside a global technology company. Dyson’s 156 undergraduate engineers are paid a salary from day one and pay no tuition fees.

Founded in 2002, the James Dyson Foundation is an international charity that empowers aspiring engineers, supports engineering in education and invests in medical research, donating over £140m to charitable causes to date. The James Dyson Award is the Foundation’s annual international design competition and is open to current and recent design and engineering students. Since starting in 2005, the Award has supported more than 285 inventions, providing funds to support their commercialisation.

Key Facts and Figures

  • Dyson’s latest technologies for creating a healthy home, such as the Dyson V15 Detect Vacuum and Dyson Pure Cool Formaldehyde, are the result of a £130m investment, we will invest an additional £2.75bn over the next five years.
  • Dyson manufactures a product every 1.26 seconds.
  • Last year Dyson manufactured its 100 millionth digital motor. The motors are five times faster than a Formula One engine and the technology lies at the heart of our machines, powering our popular cordless vacuum cleaners, the Airblade hand dryers, the iconic Supersonic hair dryer and the Airwrap styler.
  • Dyson undertook one of the broadest studies of Air Quality during lockdown, using our backpacks in 14 cities and 1,576,658 connected purifiers in homes around the world.
  • 70% of James Dyson Award international winners are commercialising their projects, against a backdrop where 90% of start-ups fail.