Dust reduction system

Last updated January 20, 2022

A dust spot caused by a dust particle on the image sensor Dustspot.jpg — A dust spot caused by a dust particle on the image sensor

A dust reduction system, or dust removal system, is used in several makes of digital cameras to remove dust from the image sensor. Every time lenses are changed, dust may enter the camera body and settle on the image sensor.

Types of systems
Piezo crystal ultrasonic vibration of filter
Sensor shifting
Need for use with digital cameras
Types of dust particles
Dust particles adhering through electrostatic charges
Dust particles adhering through intermolecular force
History of dust reduction systems
See also
References
External links

Digital single-lens reflex cameras (DSLR) are particularly vulnerable to this issue, since the interior of the camera is exposed during lens changes unlike other forms of digital cameras, and the image sensor is fixed, unlike a film camera. Even the tiniest (micrometre-size) dust particles or other contaminants that settle on the face of the image sensor (individual pixels of which have dimensions on the order of ~5 micrometres) may cast shadows and thus become visible in the final image as more or less diffuse grey blobs, depending on aperture.

Dust may be generated by internal moving parts or may be moved by air currents within the camera. Some systems remove or clean the sensor by vibrating at a very high frequency—between 100 hertz and 50 kilohertz.

Types of systems

Different manufactures employ their own version of dust abatement. One type uses a piezo crystal to vibrate a filter which covers the sensor. The second type moves the actual sensor^[1]—this may be supplemented by a controlled flow of air.

Piezo crystal ultrasonic vibration of filter

This system vibrates the thin filter surface that covers the image sensor many tens of thousands of times per second (35,000 to 50,000 hertz) to remove particles from the filter. The system consists of a very thin piece of filter glass placed in front of the image sensor; the area between the filter and the sensor is sealed, so no dust can enter. Whenever the camera is turned on, a piezoelectric driver induces a vibration in the filter glass, shaking dust off. A piece of adhesive located inside the camera traps removed dust.

The distance between the filter glass and the sensor also mitigates the problem of dust, since any dust that does adhere to the glass will be held further away from the sensor, and thus produce a larger, more diffuse, and less noticeable shadow. In practice, few Four Thirds system users report having any issues with sensor dust.

Olympus invented the system, called a Supersonic Wave Filter (SSWF), and licensed it to Leica and Panasonic.^[2] Canon also uses this type of system.^[1] Nikon uses a similar system, and they refer to it as high resonance.^[3]

The SSWF has been included in all Olympus, Panasonic, and Leica Four Thirds DSLRs, and is often cited as a key advantage of the system by reviewers and users. One disadvantage to the implementation on all current Four Thirds cameras is that the SSWF is triggered whenever the camera is turned on, causing a delay of about 0.8 seconds before the camera is ready to shoot.

Sensor shifting

This type of system moves the actual sensor to help reduce dust. It vibrates the actual sensor at around 100 Hz. The amount of movement or sensor travel is larger than the higher-frequency filter vibrating types. A crude analogy to compare it to the piezo crystal filter method is something like hitting or banging the sensor to displace the contaminant, whereas the piezo vibrates a filter to make the particles fall off. The sensor may also utilize a negatively charged surface coating to reduce static and help repel negatively charged particles. Konica Minolta is credited with being the original developer of this type of system. Sony and Pentax incorporate sensor shifting in their cameras with dust reduction systems.^[1]

Need for use with digital cameras

These problems are not as critical with film SLRs as the dust disappears as the film is wound on, but with DSLRs the image sensor always remains in the same place. Even with dust particles smaller than 1 micrometre (0.001 mm) and invisible to the human eye, once they land on the image sensor's surface they can degrade the quality of all the images taken thereafter.^[4] Furthermore, it can be a difficult task to remove the dust, sometimes making it necessary to send the camera in for servicing.

Types of dust particles

There are two main types of dust that can potentially degrade image quality: Dust particles that adhere through electric force and dust particles that adhere through intermolecular force.

Dust particles adhering through electrostatic charges

Most of the contamination to be found on the image sensor surface is caused by dust particles as small as just one micrometre (0.001 mm) adhering to it through electrical charges. The particles themselves carry a positive static electric charge, while the image sensor is negatively charged, which makes them attract each other. The same phenomenon can be observed on the surface of LCD and CRT monitor screens.

Dust particles adhering through intermolecular force

The intermolecular force is weaker than electrostatic charges. However, it still attracts microscopic-sized dust to the image sensor with infinitesimal force. While earthing (grounding) the camera can help reduce the problem of electrostatic dust it does not reduce intermolecular attraction. If, for example, flour were drizzled into the camera, it would still adhere to the surface of earthed metal. This kind of dust is attracted by intermolecular force. Liquid also adheres to the image sensor by intermolecular force and such molecules adhere strongly due to their ability to get closer to the adhesion surface, making it harder for dust reduction systems to remove these type of contaminants completely. In such instances, wiping the optical elements in front of the image sensor with cleaning fluid may be necessary.

History of dust reduction systems

Olympus was the first to include a dust reduction system on a DSLR, featuring their "Supersonic Wave Filter" (SSWF) dust reduction technology on the Olympus E-1 in 2003. All Olympus DSLRs with removable lenses have included this system, as have Panasonic's and Leica's DSLRs; both companies use Olympus technology. Olympus Corporation was awarded an innovation prize by the Japan Institute of Invention and Innovation (JIII) in 2010 for its invention of automatic dust reduction for digital cameras.^[5]^[6]

Before that Sigma was sealing the mirror box of their cameras with a protective filter behind the lens mount, preventing dust from entering the camera body.

Other manufacturers, namely Sony (2006), Canon (2006), Pentax (2006), and Nikon (2007), followed suit with their own dust removal technologies. Each manufacturer uses a somewhat different system.

There have been several attempts by camera magazines to test the various dust reduction systems to see how effective they are. Pixinfo,^[1] Chasseur d’Images,^[7]^[8] and Camera Labs^[9] have all published their opinions, which can be summarized as saying that none of the systems are completely effective, but that the Olympus SSWF system is significantly better than most of the others, with the Nikon system perhaps a close second.^[10]

Related Research Articles

A digital camera is a camera that captures photographs in digital memory. Most cameras produced today are digital, largely replacing those that capture images on photographic film. Digital cameras are now widely incorporated into mobile devices like smartphones with the same or more capabilities and features of dedicated cameras. While there are still dedicated digital cameras, many more cameras are now incorporated into mobile devices like smartphones. High-end, high-definition dedicated cameras are still commonly used by professionals and those who desire to take higher-quality photographs.

Four Thirds system digital camera sensor and lens mount format

The Four Thirds System is a standard created by Olympus and Eastman Kodak for digital single-lens reflex camera (DSLR) and mirrorless camera design and development.

A digital single-lens reflex camera is a digital camera that combines the optics and the mechanisms of a single-lens reflex camera with a digital imaging sensor.

Lumix is Panasonic's brand of digital cameras, ranging from pocket point-and-shoot models to digital SLRs.

The Olympus E-330 is a DSLR launched on 30 January 2006, using the Four Thirds System lens mount standard. Its main feature is its live image preview functionality, permitting an image to be previewed on the LCD screen. While live image preview is not new in compact digital cameras, the E-330 is significant because it was the first digital SLR to offer this feature. With the ability to digitally zoom in 10× before taking a picture, it is very well suited for exact manual focussing, for example in macro photography.

The Olympus E-400 is a digital single-lens reflex camera launched by Olympus on 14 September 2006, using the Four Thirds System lens mount standard. This 10 megapixel camera could be compared to other DSLRs unveiled during the summer of 2006 with comparable pixel count and price range: the Sony α 100, the Nikon D80, the Canon EOS 400D and the Pentax K10D.

The Olympus E-510 is a 10-megapixel digital single-lens reflex (DSLR) camera oriented to the "prosumer" or "hobbyist" market.

The Olympus E-410 is a 10 megapixel digital single-lens reflex (DSLR) camera intended be the smallest and lightest DSLR on the market. Announced in March 2007 to succeed the E-400, it adds a live preview function and a new "Olympus TruePic III" processing chip that is claimed to provide better performance.

The Lumix DMC-L10 is Panasonic's second digital single-lens reflex camera (DSLR), a follow-up to the previous Lumix DMC-L1 model. It was announced in August 2007, and, like the Lumix DMC-L1, this model uses the Four Thirds System lens mount standard and contains some basic parts provided by Olympus.

This article is about photographic lenses for single-lens reflex film cameras (SLRs) and digital single-lens reflex cameras (DSLRs). Emphasis is on modern lenses for 35 mm film SLRs and for DSLRs with sensor sizes less than or equal to 35 mm ("full-frame").

The Olympus E-420 is a 10 megapixel digital single-lens reflex (dSLR) camera made by Olympus. The camera conforms to the Four Thirds System standard, and together with its siblings in the E-4XX series it is marketed as the smallest DSLR in the world.

The Micro Four Thirds system is a standard released by Olympus and Panasonic in 2008, for the design and development of mirrorless interchangeable lens digital cameras, camcorders and lenses. Camera bodies are available from Blackmagic, DJI, JVC, Kodak, Olympus, Panasonic, Sharp, and Xiaomi. MFT lenses are produced by Cosina Voigtländer, DJI, Kowa, Kodak, Mitakon, Olympus, Panasonic, Samyang, Sharp, Sigma, SLR Magic, Tamron, Tokina, TTArtisan, Veydra, Xiaomi, Laowa, Yongnuo, Zonlai, Lensbaby, Kowa, Venus Optics and 7artisans amongst others.

The Panasonic Lumix DMC-G1 was the first digital mirrorless interchangeable-lens camera (MILC) adhering to the Micro Four Thirds system design standard. The G1 camera is similar to the larger Four Thirds system format DSLR cameras, but replaces the complex optical path needed for the optical viewfinder with an electronic viewfinder EVF displaying a live view image directly from the sensor. Eliminating the mirror box and optical viewfinder allows for smaller and lighter camera bodies, while the less complex optical path also allows for smaller, lighter lens designs.

The Canon EOS 500D is a 15-megapixel entry-level digital single-lens reflex camera, announced by Canon on 25 March 2009. It was released in May 2009. It is known as the EOS Kiss X3 in Japan, and as the EOS Rebel T1i in North America. It continues the Rebel line of mid-range DSLR cameras, is placed by Canon as the next model up from the EOS 450D, and has been superseded by the EOS 550D (T2i).

The Olympus E-450 is a 10.0 megapixel digital single-lens reflex (DSLR) camera made by Olympus and conforming to the Four Thirds System standard. E-450 was announced in March 2009, and shipping started in May the same year. E-450 is similar in size to its siblings in the E-4XX series, marketed as the smallest DSLRs in the world.

A mirrorless interchangeable-lens camera (MILC) or simply mirrorless camera, also called digital single-lens mirrorless (DSLM) or electronic viewfinder interchangeable lens (EVIL) camera, is a photo camera featuring a single, removable lens and a digital display. The camera does not have a reflex mirror or optical viewfinder like a digital single-lens reflex (DSLR) camera. Many mirrorless cameras retain a mechanical shutter. Like a DSLR, a mirrorless camera accepts any of a series of interchangeable lenses compatible with its lens mount.

The Panasonic Lumix DMC-G3 is a digital mirrorless interchangeable lens camera adhering to the joint Olympus and Panasonic Micro Four Thirds System (MFT) system design standard. The Panasonic Lumix DMC-G3 is the eighth Panasonic MFT camera introduced under the standard and the thirteenth model MFT camera introduced by either Olympus or Panasonic, as of the G3 product announcement date.

The Panasonic Lumix DMC-G2 is a digital mirrorless interchangeable lens camera adhering to the Olympus and Panasonic developed Micro Four Thirds System (MFT) system design standard. It was announced in March 2010 along with a lesser featured Panasonic Lumix DMC-G10.

The Pentax K-3 is a 24-megapixel Pentax high-end digital single-lens reflex camera with an APS-C sensor, announced on 7 October 2013. The Pentax K-3 is the successor to both the K-5 II and K-5 IIs models, which have a 16-megapixel sensor. The K-5 II had an optical low pass filter or anti-aliasing (AA) filter that can prevent the appearance of moire patterning on the captured image. This filter reduces the sharpness of the image, so Pentax also produced the K-5 IIs which omitted this filter. In the K-3, Pentax obviated the need for providing two separate models by including a selectable AA filter "simulator". This mechanism vibrates the sensor when switched on, slightly blurring the image in a way that replaces the function of the optical AA filter, providing the same benefit as the filter in the K-5 II and other cameras with an optical AA filter. When the AA simulator is disabled, the sensor records a sharper image, as in the K-5 IIs.

The Nikon D5300 is an F-mount DSLR with a carbon-fiber-reinforced polymer body and other new technologies, announced by Nikon on October 17, 2013. It is a mid-range camera with a crop sensor and requires a minimum camera 8.3 raw plugin for Photoshop to process its .NEF files.

References

1 2 3 4 Irházy, Róbert (2007-03-20). "Review: Dust removal systems / sensor cleaning". Pixinfo.com. Archived from the original on 2008-02-19. Retrieved 2008-03-05.
↑ "Olympus - Supersonic Wave Filter". Archived from the original on 11 October 2009. Retrieved 28 January 2011.
↑ "Comprehensive Dust Reduction System from Nikon". Archived from the original on 13 July 2011. Retrieved 29 January 2011.
↑ "Digital SLR Sensor Dust: Real Issue or Camera-Maker Hype?". Digital-SLR-Guide.com.
↑ "Olympus dust reduction system wins Japanese invention award". dpreview.com. 2010-06-18. Retrieved 2010-10-11.
↑ "Dust reduction press release and history" (Press release) (in Japanese). Olympus Corporation. 2010-06-18. Retrieved 2010-10-11.
↑ "Les dispositifs anti-poussières : du pipo ? Sauf Olympus ?". MacAndPhoto.com (in French). 2007-03-07. Retrieved 2008-03-05.
↑ "Battle of DSLR sensor dust busters". DPReview forums. 2007-02-22. Retrieved 2008-03-05.
↑ Laing, Gordon (June 2007). "Olympus E-510 full review - verdict". Camera Labs. Retrieved 2008-03-05.
↑ Laing, Gordon (March 2008). "Nikon D60 review". Camera Labs. Retrieved 2008-03-06.

External links

This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.

[Pixinfo_2007-03-20-1] 1 2 3 4 Irházy, Róbert (2007-03-20). "Review: Dust removal systems / sensor cleaning". Pixinfo.com. Archived from the original on 2008-02-19. Retrieved 2008-03-05.

[2] "Olympus - Supersonic Wave Filter". Archived from the original on 11 October 2009. Retrieved 28 January 2011.

[3] "Comprehensive Dust Reduction System from Nikon". Archived from the original on 13 July 2011. Retrieved 29 January 2011.

[4] "Digital SLR Sensor Dust: Real Issue or Camera-Maker Hype?". Digital-SLR-Guide.com.

[5] "Olympus dust reduction system wins Japanese invention award". dpreview.com. 2010-06-18. Retrieved 2010-10-11.

[6] "Dust reduction press release and history" (Press release) (in Japanese). Olympus Corporation. 2010-06-18. Retrieved 2010-10-11.

[Macandphoto.com-7] "Les dispositifs anti-poussières : du pipo ? Sauf Olympus ?". MacAndPhoto.com (in French). 2007-03-07. Retrieved 2008-03-05.

[DPReview_2007-02-22-8] "Battle of DSLR sensor dust busters". DPReview forums. 2007-02-22. Retrieved 2008-03-05.

[CameraLabs-9] Laing, Gordon (June 2007). "Olympus E-510 full review - verdict". Camera Labs. Retrieved 2008-03-05.

[CL_NikonD60-10] Laing, Gordon (March 2008). "Nikon D60 review". Camera Labs. Retrieved 2008-03-06.

[1]

[2]

[3]

[4]

[5]

[6]

[7]

[8]

[9]

[10]