Dyson core technology
Dyson’s own Hyperdymium™ motor
The lightweight digital motor spins at up to 135,000rpm, generating the power needed to suck up dust and debris.
Digital Motorbar™ cleaner head
Intelligently adapts suction power to floor type. With hair removal vanes that de-tangle and capture hair as you clean.
No loss of suction. Unlike others.
Dyson’s patented Root Cyclone™ separation system captures microscopic dust and large debris, so there’s no loss of suction.
Up to 99.99% filtration at 0.1 microns
Dyson’s fully-sealed HEPA filtration traps microscopic particles and allergens – and expels cleaner air.
Frequently asked questions
All Dyson cordless vacuums are engineered for a range of cleaning tasks. The Dyson Gen5detect stick vacuum is currently our most powerful and intelligent vacuum cleaner. Discover the Dyson Gen5detect
The Dyson Gen5 stick vacuum cleaners are our most powerful cordless vacuum. A Dyson Hyperdymium™ motor spins at up to 135,000rpm to generate powerful Dyson suction.21 Discover the Dyson Gen5 vacuums
Dyson stick vacuum cleaners are engineered to be able to deep clean your home. They have a Dyson Hyperdymium™ motor that spins at up to 135,000rpm to generate powerful Dyson suction - it's powerful and lightweight.1
You can buy a replacement battery direct from Dyson. Only by using a genuine Dyson battery are you ensuring that your machine continues to work as intended, and that your guarantee remains intact. Shop Dyson batteries
Pascals (Pa) are a unit of measurement used in physics to describe a difference in pressure inside and outside an object. Meanwhile, Air Watts (AW) measure suction power, accounting for both pressure (Pa) and rate of airflow. Since it’s a holistic measurement, looking at AW may be more helpful when assessing vacuum performance.
Air Watts (AW) differ between robot, cordless and upright or barrel vacuums. Although AW can help to understand the suction power of a vacuum, it isn’t the only factor to consider. How well a vacuum is sealed and the intelligence of the design play crucial roles in overall power and effectiveness. Generally when looking at performance, higher air watts in a machine means better suction power. However, robot vacuums don’t require as many air watts as cordless, upright or barrel vacuums – which is due to a better seal to the surface.
Suction power indicated by Air Watts (AW) is a good starting point to understand the power of a vacuum as this indicates both pressure and rate of air flow.
- How well a vacuum is sealed is also critical as AW can be lost via cracks and gaps in the machine.
- Well-designed air flow is another important factor to allow the vacuum to broadly capture dust and debris in hard-to-reach areas.
Owner support
-
Register your machine -
Explore accessories -
Find the right part -
Expert support
2 Suction tested to IEC 62885-4 CL5.8 and CL5.9, loaded to bin full, in Boost mode.
4 Quantity and size of dust displayed on screen varies depending on usage. Examples shown may occur within one or more displayed size range.
5 In Auto mode.
6 In Eco mode on hard floors.
7 Tested against ASTM F1977-04 (particles sized 0.3-0.5 microns), tested in Boost mode.
8 Filtration tested against ASTM F3150, tested in Boost mode by independent third-party, SGS-IBR Laboratories US in 2020.
9 Compared to Dyson V11 Absolute Extra.
10 In suction mode one with non-motorised tools.
11 Tested against ASTM F1977-04 (particles sized 0.3-0.5 microns), tested in MAX mode.
12 In Powerful mode with non-motorised tools.
13 When used on hard floor.
14Compared to the original Dyson Laser Slim Fluffy™ cleaner head. Effectiveness influenced by ambient light conditions, debris type and surface.
15Quantity and size of dust displayed on screen varies depending on usage. Automatic suction adaptation only occurs in auto mode.
16Suction tested to IEC62885-4 CL5.8 and CL5.9, tested at the flexible inlet, loaded to bin full, in Boost mode by independent third-party, SGS-IBR Laboratories US in 2022.
17Filtration tested against ASTM F3150, tested in Boost mode by independent third-party, SGS-IBR Laboratories US in 2022. Filtration efficiency is calculated by comparing the number of standardised dust particles entering the vacuum cleaner against those released. The capture rate may differ depending on actual environment and the mode.
18Applies in Eco mode on hard floor. Actual run time will vary based on power mode, floor type and/or attachments used.
19Compared to the original Dyson Laser Slim Fluffy™ cleaner head. Effectiveness influenced by ambient light conditions, debris type and surface.
20Applies in Eco mode on hard floor. Actual run time will vary based on power mode, floor type and/or attachments used.
21Suction tested to IEC62885-4 CL5.8 and CL5.9, tested at the flexible inlet, loaded to bin full, in Boost mode.
22Filtration tested against ASTM F3150, tested in Boost mode. Capture rate may differ depending on actual environment and the mode.
23Compared to the original Dyson Laser Slim Fluffy™ cleaner head. Effectiveness influenced by ambient light conditions, debris type and surface.
24Best accuracy achieved in Auto mode. Auto ramp feature in Auto mode only. Testing based on average in home usage according to Dyson internal test data. Microscopic dust is defined as particles less than 100 microns.
25Applies in Eco mode on hard floor. Actual run time will vary based on power mode, floor type and/or attachments used.