Canon EF lens mount


The EF lens mount is the standard lens mount on the Canon EOS family of SLR film and digital cameras. EF stands for "Electro-Focus": automatic focusing on EF lenses is handled by a dedicated electric motor built into the lens. Mechanically, it is a bayonet-style mount, and all communication between camera and lens takes place through electrical contacts; there are no mechanical levers or plungers. The mount was first introduced in 1987.
In 2003, Canon introduced the EF-S lens mount, a derivative of the EF mount that is strictly for digital EOS cameras with APS-C sensors released after 2003. EF lenses can be mounted on EF-S bodies but EF-S lenses cannot be mounted on EF bodies. In October 2012, Canon introduced the EF-M lens mount, a derivative designed exclusively for mirrorless interchangeable-lens cameras with APS-C sensors. EF and EF-S lenses can be mounted on EF-M bodies via the optional Mount Adapter EF-EOS M.
Canon claims to have produced its 100-millionth EF-series interchangeable lens on 22 April 2014.

History

The EF mount replaces its predecessor, the FD mount.
The standard autofocus lens mounting technology of the time used a motor in the camera body to drive the mechanics of the focus helicoid in the lens by using a transfer lever. The key innovation of the EF series was to use a motor inside the lens itself for focusing. This allowed for autofocusing lenses which did not require mechanical levers in the mount mechanism, only electrical contacts to supply power and instructions to the lens motor. The motors were designed for the particular lens they were installed in.
The EF mount reversed the mechanical logic of the FD mount. The FD mount provided the three-eared bayonet fitting on the camera body, and each FD lens provided a breech-lock receptacle to register and fasten the lens to the bayonet. The EF mount reverses this logic, providing the bayonet on each lens, and a receptacle on the camera body.
The EF mount also changed the logical clamping action of the bayonet receptacle to improve the tactical operation. Attaching an FD lens to a camera body required two hands: one to hold the lens in position, and a second to twist the breech-lock ring to rigidly lock the lens to the camera. The EF mount instead provides leaf springs in the receptacle, which hold the registration surfaces of the lens and receptacle together along the optical axis, while the manual twisting action engages a spring-loaded registration pin in the receptacle which drops into a recess provided on the bayonet fitting, locking the rotation. This EF mount feature provided the convenience of attaching EF lenses with one hand, versus two hands required for the FD attachment. An EF lens may also be removed with one hand by gripping the base of the lens and pressing the nearby release button with the tip of thumb. The one-handed skillful operation of the EF mount allows changing lenses in handheld photography, since the other hand is freed to hold the camera body.
When the EF mount was introduced in 1987, it had the largest mount diameter among all 35 mm SLR cameras.
The EF series includes over eighty lenses. The EF series has encompassed focal lengths from 8 to 1200 mm. The EF-M mount was introduced with two lenses, a 22mm prime and an 18–55mm zoom. Many EF lenses include such features as Canon's ultrasonic motor drive, an image stabilization system, diffractive optics and, particularly for L-series lenses, fluorite and aspherical lens elements.

Versatility

Its large diameter and relatively short flange focal distance of 44.0 mm allows mechanical adaptation of EF camera bodies to many types of non-EF lenses. It is possible to mount lenses using the Nikon F mount, Olympus OM, Leica R and universal M42 lens mounts by the use of a mechanical adapter without electronic control of the aperture or autofocus. Conversely, parfocal adaptation of EF lenses to non-EF camera bodies is not generally possible with only a mechanical adapter that does not contain optical elements.
Lenses for the earlier Canon FD lens mount are not usable for general photography on an EF or EF-S mount camera, unless adapters with optical elements are used because they are made for a flange focal distance of only 42.0 mm. Most of these lenses require autofocus and aperture motors inside the body which isn't available in EOS bodies. Infinity focus would be lost with an adapter which lacks optical elements. The Canon FD-EOS adapter is rare and is only usable with certain FD telephoto lenses. With a manual connection, the aperture and focus controls of the lens cannot be controlled or read from the camera; the lens must be focused manually. Since the only possible metering is through-the-lens, the lens must be manually stopped down to accurately meter at anything less than full aperture. With the introduction of the Canon EOS-M mirror-less digital camera, an inexpensive adapter allows the full use, including infinity focusing, of nearly all FD and FL lenses.
For other lens types, an adapter would act as an extension tube, causing the lens to lose the ability to focus to infinity. Alternatively, the lens adapters would include optical elements and act as weak teleconverters, as well as possibly losing optical quality.

Third-party lenses

Compatible third-party lenses with the EF lens mount are manufactured by Yongnuo, Samyang, Schneider, Sigma, Tamron, Tokina, and Carl Zeiss. The manufacturers of these lenses have reverse engineered the EOS electronics—except Zeiss which does not have the rights to use the autofocus or the electronic aperture control of EOS cameras. The use of these third-party lenses is not supported by Canon. Sometimes compatibility problems arise, as no third party has access to Canon's specifications for camera-to-body communication. These compatibility issues mostly occur when using a newer body with an older third-party lens. Over time, most of these issues have been resolved by the major third-party brands.

Third-party cameras

Due to the high market penetration of EF-mount lenses, other camera manufacturers began to offer EF-mount cameras. Since the EF-mount was created for SLR cameras with their long focal flange distance, mirrorless interchangeable-lens cameras can use EF lenses with a mechanical adaptor that bridges the distance.
Red Digital Cinema Company offers various camera models that can be equipped with an electronic EF-mount.
Many Blackmagic Design cameras are sold in EF-mount variants.
For Sony E-mount various adaptors enable using EF-mount lenses with full electronic control.

Controls and features

Canon EF lenses typically have a number of controls, switches and physical features, used by the photographer to control the lens. The types and number of the controls can vary from lens to lens. With the most basic lenses having only a few, to the most complex having over a dozen different controls and switches.
This is a list of the different controls and switches found on most Canon EF lenses, along with a detailed description on what they are used for.
Lens mount index: This marking is found on all EF lenses. It is used for matching the EF lens mount to the mount on an EOS body, so one can connect the lens to the body quickly. On EF lenses, this is a raised, round red mark, while on EF-S lenses it is a square white mark.
Focusing ring: This control, found on most EF lenses, is used for focusing the lens. It is usually a ring on the lens body, that can be turned. On some lenses, such as the Canon EF-S 18-55mm lens, this is simply the inner lens barrel.
[|Zoom] ring: This control is found on most EF zoom lenses. It is used for changing the focal length of the lens. The zoom ring usually has certain, common, focal lengths marked on it. To set the zoom ring to any given focal length, one must turn the ring so that the marked focal length matches the zoom index. The zoom index is typically a white, or black, line found next to the zoom ring.
Distance scale window: This feature is found on many EF lenses. This feature, while not a control or switch, is useful to the photographer for determining, or setting, the lens's focus distance. It is used in conjunction with the Focusing ring. When rotated, the distance scale will also rotate to show the changing focus distance. On some lenses the distance scale also has an infrared index. These are shown as red markings below the distance scale. This is used for making focus adjustments when the photographer is doing infrared photography, as lenses typically focus infrared light at a different point than visible light, and therefore achieving correct focus using visible light will result in an out-of-focus infrared image. To make an adjustment, first focus the subject, then turn the Focusing ring so it matches the corresponding infrared index mark.
Focus mode switch: This switch is found on most EF lenses that have an autofocus feature. It is used for setting the lens to either autofocus mode, or manual focus. When set to autofocus mode, the lens will autofocus when directed to by the camera. When set to manual focus, the lens is focused using the Focusing ring. Some lenses support full-time manual focusing, which allows the photographer to focus the lens manually even with the mode switch set to AF, without damaging the lens.
Focusing distance range limiter switch: This switch is found on most longer focal length lenses, and macro lenses. It is used for limiting the focusing distance range of the lens when using it in autofocus mode. Most lenses have two settings; these are usually full focus range, and distant focus range. Other lenses have three settings, with the additional setting usually being near focus range. Longer focal length lenses and macro lenses have a relatively long travel distance for the focusing mechanism inside the lens; this feature shortens the autofocus time. When the photographer knows they will not need a certain part of the focus distance range, limiting it will help shorten the autofocus time, and possibly prevent "focus hunting".
Soft focus ring: This ring is found only on the 135 mm 'Soft Focus' prime lens, and enables a variable soft focus effect from completely sharp to very soft, although it has little effect when used with apertures over f/5.6. Although the ring can be set to any position, two 'stops' are implemented at positions 1 and 2.
Image stabilizer switch: This switch is found on all EF lenses that feature an image stabilizer. It is used for turning the image stabilizer "on", or "off".
Image stabilizer mode switch: This switch is found on many EF lenses that feature an image stabilizer, particularly those of longer focal lengths. The switch has two settings on most lenses: Mode 1 and Mode 2. The newest IS Mark II versions of certain EF super telephoto lenses, plus the 200–400mm f/4L IS and 100–400mm f/4–5.6L IS II, have a third setting, Mode 3. Mode 1 is normal mode, used for typical photography, where the subject does not move. Mode 2 is used for panning; this is useful for sports or wildlife photography, where the subject moves constantly and one will need to pan. Mode 3, intended to track action, is similar to Mode 2 in that it ignores panning; however, it only applies stabilization when the shutter is released—the viewfinder image is not stabilized. One should not use Mode 1 for panning as this will typically cause blurred photographs; the image stabilizer will attempt to correct for all motion, including the panning motion, but cannot do so due to the limited range of motion of the IS mechanism. Older lenses that have an image stabilizer, but do not feature this switch, are permanently in Mode 1. Some newer lenses, such as the Canon EF-S 18-200mm lens, are able to detect if they are being panned in either axis and will automatically disable the stabilization for the axis parallel to movement and therefore do not require this switch.
Autofocus stop buttons: These buttons are found on some super telephoto EF lenses, evenly spaced around the front collar of the lens. They are used for temporarily stopping the autofocus feature of the lens. Only one button needs to be pressed to activate the feature. To use this button, one must first have the autofocus active, then when one wishes to halt autofocus, one presses and holds the button. To resume autofocus, one releases the button. Some newer bodies allow these buttons to be assigned to perform other functions; for instance, the Canon EOS 7D allows the photographer to set these buttons to perform any of six functions.
Focus preset: The focus preset feature is found on most super telephoto EF lenses. The focus preset feature uses one switch, one button, and one ring. It is used for presetting a given focus distance into memory, so that the photographer can quickly recall the focus distance, without the need for autofocus. The switch has three settings "off", "on", or "on with sound", and is used for turning on the feature, and deciding if sound is desired. The "set" button is used for saving the focus distance into memory. The focus preset ring is used for recalling the memory save point. It is a thin knurled ring, usually located in front of the Focusing ring. To use this feature, one must set the switch to either "on" or "on with sound", focus the lens to the desired distance, then press the "set" button. After this, when the feature is turned on, the photographer can turn the focus preset ring, and the lens will recall and focus quickly to the distance that was saved. This feature is useful for sports and birding photography.
Filter mounting: This mount is used for attaching filters to EF lenses. There are three types: front threaded mount, inner drop-in mount, and rear gelatin holders. Front threaded filters are used on most lenses, and are attached by threading and tightening the filter. Inner, drop-in filter mounts are used on super telephoto EF lenses. They are attached by first pressing the two buttons on the filter mount, and pulling it out. Then either a round threaded filter is attached, or one can use a gelatin filter. Rear gelatin filter holders are used by cutting out a sheet of gelatin, to the size shown on the back of the lens and then sliding it into the holder. Filter mounts are useful for all types of photography, and every EF lens has either one or two of the three types used.
Lens hood mount: This feature is found on most EF lenses. This mount is used for attaching the lens hood. The hood mount is of a bayonet style on most EF lenses, though a clip-on style hood mount is used for a small selection of current lenses.
Tripod collar: This feature is found on most longer focal length lenses, and macro lenses. The tripod collar is used for attaching the tripod ring. There are two main styles of tripod rings. One type is opened up, placed on the lens' tripod collar, then closed and tightened. The other type does not open, but instead is slid up the lens from the mount end and tightened. To set the tripod ring so that it is level with the lens, rotate the ring until the index mark on the tripod ring matches the index mark on the distance scale. The tripod ring is used for attaching a tripod/monopod near to the point of balance of the lens-body combination, more conveniently than the camera body. In the case of larger and heavier lenses, there is also less strain on the lens mount if the body is supported by the tripod-mounted lens than if the lens were to be supported by a tripod-mounted body.

Related technologies

With the release of the EOS 300D Canon introduced a variation on the standard EF lens mount called EF-S. The "S" stands for "Small image circle". EF-S uses the standard EF bayonet mount, but with minor physical alterations which prevent EF-S lenses from being mounted on bodies which do not support them.
There are a couple of benefits to EF-S lenses, both related to the smaller sensor size. One is that since a lens designed for a smaller sensor need only project an image circle large enough to cover the small sensor, the lens itself can be smaller; it can therefore also be lighter and have lower materials costs, since the lens elements, made of relatively heavy and expensive optical glass, will be smaller than in a comparable full-frame lens. Such a lens, if used on a body with a larger sensor, would leave the outer portions of the sensor outside its image circle, and therefore they would be black, but since EF-S lenses will not physically mount on incompatible bodies, this problem is avoided.
The second benefit is that, since a body with a smaller sensor can use a smaller mirror, the rear element of the lens can extend somewhat into the body without danger of being struck by the mirror. Particularly for a wide-angle lens, this gives the lens designers more freedom in designing the lens' optical formula.
EF-S lenses are only compatible with bodies with a 1.6× crop sensor. The first four models of the 1D line of Canon EOS cameras had a slightly larger 1.3× crop sensor but cannot use EF-S lenses.
The 2012 release of the Canon EOS M, the company's first mirrorless interchangeable-lens camera, saw the introduction of the EF-M variation. The flange focal distance on EF-M is shorter than the EF and EF-S lenses. Canon supplies an optional adapter that allows both EF and EF-S lenses to be mounted on EF-M bodies.

Ultrasonic motor drive

lenses appeared with the introduction of the EF 300 mm 2.8L USM lens in 1987. Canon was the first camera maker to successfully commercialise the USM technology. EF lenses equipped with USM drives have fast, silent and precise autofocus operations, and consume less power compared to other AF drive motors.
There are three types of USMs: ring-type USM, micromotor USM, and Nano USM. Ring-type USM allows for full-time manual focus operations without switching out of AF mode. Micromotor USM is used to bring down the cost of the lens. It is possible to implement FT-M even with micromotor USM; however, it requires additional mechanical components, and the vast majority of micro-USM lenses do not offer such capability. Nano USM was introduced in 2016 with the release of Canon's latest iteration of the EF-S 18–135mm lens. It is intended to offer the AF speed of ring-type USM with the quietness of STM mechanisms.
Some older USM lenses are identified with a gold ring and the word "Ultrasonic" printed in gold on the lens barrel. L lenses with USM don't have the gold ring, but they still have the word "Ultrasonic" printed on the lens barrel.

Stepping motor

Canon announced Stepping motor lenses first in June 2012, alongside the EOS 650D/Rebel T4i/Kiss X6i.
Canon stated that this technology allows smooth and silent autofocus, and with compatible bodies will provide continuous autofocus in live view and video. Unlike USM, STM lenses use focus-by-wire to enable full-time manual mode. Two main disadvantages are linked to focus-by-wire: First, the need to computationally process the input before the intended action is executed leads to a sometimes perceptible lag. Second, using the motor requires power, so when an STM lens is not connected to a camera or the camera is switched off, changing the focus is impossible.
All EF-M lenses introduced to date—the EF-M 22mm pancake prime and EF-M 18–55mm zoom introduced with the EOS-M, plus the later 11–22mm, 15–45mm, 18–150mm, and 55–200mm zooms, and the 28mm macro lens—feature STM technology.
All stepping-motor lenses are marked with the letters "STM" on the front of the lens as part of the model designation.

Image stabilizer

The image stabilization technology detects handheld motion and optically corrects it. It only corrects handheld motion; if the subject of the photograph is moving, IS will not stop it. It also can only stabilize so much motion, ranging from two to five stops, depending on the specific IS in the lens. Canon has released several versions of the IS system, including the following:
All EF lenses that support IS have the words "Image Stabilizer" written on the lens. On some of Canon's larger telephoto lenses, the words "Image Stabilizer" are etched onto a metal plate affixed to the lens.

Diffractive optics

are special lens elements that are used in some lenses. DO lenses are usually smaller and lighter and are better at handling chromatic aberration, compared to conventional lenses of similar focal length and aperture value. They are more expensive to make. Only the EF 400 mm 4 DO IS USM, its updated Mark II version, and the EF 70–300 mm 4.5–5.6 DO IS USM contain DO elements. DO lenses have a green ring on the barrel.

L-series lenses

Top range Canon EF lenses are designated "L-series", or "Luxury" lenses. L series lenses are compatible with the full range of EF or EF-S mounts and, as they are aimed at the high-end user, most also include environmental or weather sealing and a constant maximum aperture. All L lenses are supplied complete with a hood and a pouch or case, which are not generally included with non-L lenses. Distinctive visual cues include a red ring around the lens and an off-white colour on longer-focal-length models. The latter also helps to reflect light and reduce heat absorption and subsequent internal expansion of lens components that can affect the image quality of long focal length lenses.
All L lenses include at least one fluorite or ultra-low-dispersion glass element, and/or certain types of aspherical elements. Other typical mechanical characteristics of L lenses are the use of an ultrasonic motor for focusing and image stabilization.

Timeline of innovations

In 1987 Canon was the first to use USM with the Canon EF 300mm f/2.8L USM.
In 1989 Canon was the first to create an f/1.0 AF lens with the Canon EF 50mm f/1.0L USM.
In 1993 Canon was the first to create an interchangeable 10× superzoom lens for SLR cameras. That lens was Canon EF 35-350mm f/3.5-5.6L USM.
In 1993 Canon created the first Super UD lens with the Canon EF 400mm f/5.6L USM.
In 1995 Canon created the first lens with IS. That lens was the Canon EF 75-300mm f/4-5.6 IS USM.
Canon in 2001 was the first to create a lens with DO element. That lens was the Canon EF 400mm f/4 DO IS USM.
Canon in 2008 created the first lens with SWC technology. That lens was the Canon EF 24mm f/1.4L II USM.
Canon in 2009 created the first lens with Hybrid IS which compensates both angle camera shake and shift camera shake with the Canon EF 100mm f/2.8L Macro IS USM.
Canon in 2010 was the first to create a lens with Fluorine coating. That lens was the Canon EF 70-300mm f/4-5.6L IS USM.
Canon in 2011 made the first fisheye zoom lens, both circular and rectangular. That lens was the Canon EF 8-15mm f/4L Fisheye USM.
Canon in 2012 made the first wide angle lens with Image Stabilization. That lens was the Canon EF 24mm f/2.8 IS USM.
Canon in 2013 created the first telephoto with built-in 1.4× extender. That lens was Canon EF 200-400mm f/4L IS USM Extender 1.4x.

Communication protocol

The communication protocol between the camera is 8-data-bit, 1-stop-bit SPI. The pins, from right to left on the lens, are:
NameFunctionNotes
VBat+6 V to power internal lens focus motors
Present on all EOS bodies and lenses
P-GndPower ground
Present on all EOS bodies and lenses
P-GndPower ground
Present on all EOS bodies and lenses
VDD+5.5 V Digital logic power
Present on all EOS bodies and lenses
DCLData from camera to the lens
Present on all EOS bodies and lenses
DLCData from the lens to the camera
Present on all EOS bodies and lenses
LCLKCamera body generated clock signal
Present on all EOS bodies and lenses
D-GNDDigital logic ground
Present on all EOS bodies and lenses
COM1Teleconverter common
Only on most L-series and some macro lenses
EXT0Short to COM1 for 'Life Size Converter' and 1.4× teleconverter
Only on most L-series and some macro lenses
EXT1Short to COM1 for 2× and 1.4× teleconverter
Only on most L-series and some macro lenses

The information from the lens is used by the camera body for focusing and metering, and with digital camera bodies it is used to record the lens parameters in the Exif data in the images.
All L series primes 135mm or longer, the 400mm DO, the 70–200mm zooms, the 100–400mm zooms, the
200–400mm zoom and the 50mm Compact Macro have three additional communication pins. These additional pins are used by the Canon Extender EF adapters and the Life-Size Converter EF to indicate to the lens the change in focal length so that it is able to report the correct focal length and aperture to the camera body when mounted on a teleconverter. The lens also reduces autofocus speed when a teleconverter is attached to improve autofocus accuracy.

List of EF lenses

The following is a list of EF lenses made by Canon.
The "I", "II", "III" Roman numeral suffix after the focal length indicates the generation number. While I is used in the table below, it is never used in official Canon model numbers; the original model lacks a Roman numeral and only the second and subsequent generations have them. Roman numerals are used only when the entire model designation—focal length, aperture, IS, DO, L status, and motor mechanism—is identical from one version to the next. This means, for example, that when Canon introduced IS to lenses whose prior versions lacked that feature, the first IS versions lacked Roman numerals.
The EF lenses are grouped below by their focal lengths:
Focal lengthApertureIntroductionUSMISL-seriesDOFilter size
8–15 mm
42010rear
11–24 mm42015rear
16–35 mm I2.8200177 mm
16–35 mm II2.8200782 mm
16–35 mm III2.8201682 mm
16–35 mm IS4201477 mm
17–35 mm2.8199677 mm
17–40 mm4200377 mm
20–35 mm2.8198972 mm
20–35 mm3.5–4.5199377 mm
22–55 mm4-5.6199858 mm
24–70 mm2.8200277 mm
24–70 mm II2.8201282 mm
24–70 mm4201277 mm
24–85 mm3.5-4.5199667 mm
24–105 mm4200577 mm
24–105 mm II4201677 mm
24–105 mm STM3.5-5.6201477 mm
28–70 mm2.8199377 mm
28–70 mm II3.5-4.5198852 mm
28–80 mm2.8-4198972 mm
28–80 mm3.5-5.6199658mm
28–80 mm II3.5-5.6199958 mm
28–80 mm I3.5-5.6199158mm
28–80 mm II3.5-5.6199358 mm
28–80 mm III3.5-5.6199558mm
28–80 mm IV3.5-5.6199658 mm
28–80 mm V3.5-5.6199958 mm
28–90 mm II4-5.6200358 mm
28–90 mm III4-5.6200458 mm
28–105 mm3.5-4.5199258 mm
28–105 mm II3.5-4.5200058 mm
28–105 mm4-5.6200258 mm
28–135 mm3.5-5.6199872 mm
28–200 mm3.5-5.6200072 mm
28–200 mm3.5-5.6200072 mm
28–300 mm3.5-5.6200477 mm
35–70 mm3.5-4.5198752 mm
35–70 mm3.5-4.5A198852 mm
35–80 mm III4-5.6199552 mm
35–80 mm4-5.6199252 mm
35–80 mm PZ4-5.6199052 mm
35–105 mm3.5-4.5198758 mm
35–105 mm4.5-5.6199258 mm
35–135 mm3.5-4.5198858 mm
35–135 mm4-5.6199058 mm
35–350 mm3.5-5.6199372 mm
38–76 mm4.5-5.6199552 mm
50–200 mm3.5-4.5198758 mm
50–200 mm3.5-4.5198858 mm
55–200 mm II4.5-5.6200352 mm
70–200 mm2.8200177 mm
70–200 mm II2.8201077 mm
70–200 mm III2.8201877 mm
70–200 mm2.8199577 mm
70–200 mm4200667 mm
70–200 mm II4201872 mm
70–200 mm4199967 mm
70–210 mm3.5-4.5199058 mm
70–210 mm4198758 mm
70–300 mm4.5-5.6200458 mm
70–300 mm4-5.6200558 mm
70–300 mm4-5.6201067 mm
70–300 mm II4-5.6201667 mm
75–300 mm4-5.6199558 mm
75–300 mm II4-5.6199158 mm
75–300 mm III4-5.6199958 mm
80–200 mm2.8198972 mm
80–200 mm4.5-5.6199252 mm
80–200 mm II4.5-5.6199052 mm
90–300 mm4.5-5.6200358 mm
90–300 mm4.5-5.6200258 mm
100–200 mm4.5A198858 mm
100–300 mm4.5-5.6199058 mm
100–300 mm5.6198758 mm
100–300 mm5.6198758 mm
100–400 mm4.5-5.6199877 mm
100–400 mm II4.5-5.6201477 mm
200–400 mm4201352 mm rear

Prime

Exceptions

Canon has two further types of lenses compatible with the EF mount: Tilt-shift and the 1-5x Macro lens, which are not designated EF, but TS-E and MP-E respectively. TS stands for Tilt-shift while MP stands for macro-photo. These types of lenses are not designated EF as they are manual-focus only lenses. They do, however, retain electronic aperture control as well as focus confirmation.

Special