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Canon FD lens mount
Canon FD lens mount
Canon FD lens mount
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Lens mount of the Canon T90

The Canon FD lens mount is a physical standard for connecting a photographic lens to a 35mm single-lens reflex camera body. The standard was developed by Canon of Japan and was introduced in March 1971 with the Canon F-1 camera. It served as the Canon SLR interchangeable lens mounting system until the 1987 introduction of the Canon EOS series cameras, which use the newer EF lens mount. The FD mount lingered through the release of the 1990 Canon T60, the last camera introduced in the FD system, and the end of the Canon New F-1 product cycle in 1992.

Overview

[edit]
Canon manual focus lens / body compatibility[1]
Body
Lens
FD FL R
FD Meter Full Stopped-down
Aperture Auto Manual
FL Meter Stopped-down
Aperture Auto Manual
R Meter Stopped-down
Aperture Manual Manual/ Auto

The FD mount is mechanically compatible with and replaced Canon's earlier FL mount,which in turn had replaced the R mount; FD-mount cameras can use FL lenses in stop-down metering mode and R lenses will mount, but must be used with manual aperture and stop-down metering.[2]: 147 

Though never officially explained by Canon, others have attempted to assign a meaning to the "FD" designation. One such attempt states that the "FD" notation stands for "Focal-plane shutter with Dual linkage for diaphragm control"; in actuality, there were two linkages and two signals: the automatic aperture lever, aperture signal lever, full aperture signal pin, and automatic exposure lock pin. This is twice the previous lens series, which used the "FL" designation, said to mean "Focal-plane shutter, Linked mount."[citation needed]

Over the 21-plus years of production, Canon introduced 134 different FD lenses ranging from 7.5mm through 1,200mm in seventeen different fixed focal lengths and nineteen different zoom ranges, one of the most, if not the most, extensive manual focus lens lines ever produced.[citation needed]

The Canon FD system enjoyed huge popularity in the 1970s and 1980s, when it established and grew a market share with professional photographers as well as having equipped over a million consumer users. Indeed, sales of the Canon AE-1 camera alone exceeded one million.[3]

Canon obsoleted the FD mount by its decision to create the all-electronic EF mount. Thus, the FD mount system, with limited provision for auto-focus, is now commercially obsolete, and Canon FD cameras and lenses are available for low prices on the second-hand market. This makes the system very attractive to 35mm film photographers who demand the highest optical quality,[4][5] while not needing auto focus capability.

FD lenses can be used on many mirrorless interchangeable-lens cameras with a suitable adapter. They are a popular alternative to modern lenses among some users, though they lack autofocus.

Description

[edit]
Canon New FD lens mounting surface.

The FD lens mount is a breech-lock mount, which is a variation of the common triple-flanged bayonet attachment. The advantage of the breech-lock over the bayonet is that neither the contact surfaces between the body and lens, nor the signalling mechanisms, rotate against each other when the lens is mounted. This prevents any mechanical wear, which could conceivably reduce the very precise lens-to-film distance or introduce communication errors between lens and body.

The key pins and levers on the lens mount which transmit information mechanically between the lens and body include:[1]: 12–13 

  • Automatic/Manual Aperture Lever – stops down aperture to the position selected on the aperture ring when the shutter is released; this can be moved all the way anti-clockwise (viewing the rear of the lens) to force the lens to operate in manual aperture mode only, such as when the lens is mounted on an early camera body with the R mount
  • Aperture Signal Lever – transmits the aperture selected on the lens to the in-body meter, which enables full-aperture viewing while providing accurate metering information
  • Full Aperture Signal Pin – transmits the maximum aperture of the lens mounted on the body
  • EE Switch Pin – signals the body when the lens is set for shutter-preferred autoexposure by moving the aperture ring to "A" or "o"

To mount the lens, the Positioning Pin is placed in the corresponding notch on the top bayonet lug (12 o'clock position) and the breech-lock ring (for first-generation FD lenses) or lens body (for New FD lenses) is rotated clockwise (facing the front of the lens) to lock the lens onto the body.[1]: 10–11 

Versions

[edit]

Canon's first generation of the FD breech-lock used the same rotating mounting ring at the rear of the lens as the earlier R- and FL-series lenses; the lens body itself did not rotate for mounting.[2] There is a small pin which prevents movement of the breech-lock ring when the lens is not mounted on the camera.[1]: 10–11  Its minor disadvantage was a somewhat slower lens change than a bayonet.

There are three different versions of breech ring FD lenses:

  1. The first version had a chrome plated front barrel (nicknamed "chrome nose") and a green "o" for auto exposure.
  2. The second version had a black front barrel and still had a green "o" for auto exposure.
  3. The third version had a black front barrel, and a green "A" for auto exposure. These different versions are detailed below under variants.

Second-generation FD lenses, first marketed in 1979 as New FD, are mounted like bayonet-mount lenses in that the photographer twists the entire lens body to mount and dismount, though the actual mating surfaces still remain fixed.[6] This retained the advantages of the breech-lock mount while enabling the convenience of a bayonet. The letters SC or SSC, to indicate the lens coating, were no longer put on the lenses. Canon documents stated that all new FD lenses except for the new FD 50mm F1.8 had SSC coatings. Canon later chose a bayonet-style mount for its EOS system's EF lenses, where there is no precision mechanical coupling.

Functions

[edit]
Canon FD 50 mm f/1.4 on AE-1 Program.

Like its FL predecessor, the FD mount system allowed automatic diaphragm function, but in addition, a new signal pin supported full-aperture metering. A second signal pin for the "auto" setting of the aperture dial, plus a linkage to allow the camera to set the degree of diaphragm opening, enabled integral auto-exposure. The first camera to use this was the 1971 Canon F-1, when equipped with the Servo EE Finder. Later, the Canon EF of 1973 had automatic exposure built-in, as did the very popular Canon A-series cameras (save the AT-1) beginning in 1976.

Thus, starting with the first FD lenses produced in late 1970, all FD lenses had the capability of supporting full-aperture metering and multiple Automatic Exposure (AE) modes using both shutter-preferred and aperture-preferred modes. Even Programmed AE was possible with no modifications to the lens mount, though at the time of its introduction Canon did not have an AE camera body in the FD line. This was a design triumph for Canon that no other camera or lens maker was able to equal in 1970. Every other camera manufacturer had to make one or more alterations to its lens mount to enable full aperture metering, and later AE and or Programmed AE operation.

The FD mount has no support for either electrical or mechanical lens-body communication required for autofocus, which was a primary reason for its retirement. (The three AC series lenses, extended from the FD lens mount, described below, are an exception). While Canon could have adapted its mount to support auto-focus, as did other manufacturers, the company instead chose to make a clean break with the past and design a completely new interface with support for electrical signaling and control.

FD lens variants

[edit]

Coatings and cosmetic changes

[edit]
  • Canon FD lens versions
  • 50 mm f/1.4, breech ring version 1 ("chrome nose")
    50 mm f/1.4, breech ring version 1 ("chrome nose")
  • 55 mm f/1.2 S.S.C., breech ring version 2 (black nose, green o)
    55 mm f/1.2 S.S.C., breech ring version 2 (black nose, green o)
  • 50 mm f/1.4 S.S.C., breech ring version 3 (black nose, green A)
    50 mm f/1.4 S.S.C., breech ring version 3 (black nose, green A)
  • 50 mm f/1.4, New FD
    50 mm f/1.4, New FD

The earliest breech-lock Canon FD lenses (1970-1973) are generally recognizable by a chrome (silver) filter ring at the front (this ring includes its own bayonet used to mount an appropriate lens hood). Nicknamed 'chrome nose' lenses, these used two new proprietary lens coatings, designated "S.C." (Spectra Coating) and "S.S.C." (Super Spectra Coating), but neither coating was signified on the front of the lens. These were both multi-coatings, but indicated two quality grades. In the 'chrome nose' series, only the large-aperture 55mm f/1.2, and 55mm F1.2 AL (Aspherical) and the 7.5mm Fish-Eye lenses used S.S.C. coating. This first series of FD lenses shared other characteristics that would later change; the breech-lock ring can be rotated freely without mounting it on a camera body, and the aperture ring had a green "o" at the end of the scale to indicate automatic aperture operation, which at the time was only possible with an F-1 body that had the Servo EE Finder attached. The aperture ring could be rotated freely on and off of "o", although the small AE switch pin in the back of the lens (which came out when the aperture ring was rotated to "o") prevented one from doing this unless the body has the appropriate small hole in the proper location. There are chrome nose first generation FD lenses without chrome front barrels: several wide angle lenses and some telephoto lenses have black barrels, but their date code, lack of an aperture lock button and freely rotating breech ring place them into the first version FD lens group.

The second series of breech-lock FD lenses (1973-1976), which discontinued the chrome barrel front, is engraved "S.C." in white or "S.S.C." in red on the front of the lens. The S.S.C. coating was extended to most lenses in this series. The basic S.C. coating was, for the most part, limited to the least expensive lenses. These 2nd breech ring generation FD lenses still had a green "o", but now there was a chrome lock button on the aperture ring that had to be depressed to put the lens on or take the lens off of "o". One still could not put the lens on "o" unless the camera body had the AE switch pin hole. And the lens could not be mounted on a non-EE / AE body if the lens was set on "o". The breech ring now featured a lock which prevented it from rotating unless a rear cap was put on or the lens was mounted to a body. Further, the breech ring rotated slightly when the lens was mounted to aid in getting the lens securely mounted. The aperture diaphragm was opened fully when the breech ring was in the locked position.

The third variant, made from 1976 to the end of production of breech ring FD lenses (around 1980) changed the green "o" to a green "A" and the chrome aperture ring lock button was changed from chrome to black. The breech ring was still locked unless mounted and it still had the spring loaded twist to make it easier to mount the lens. The third version FD 50mm F1.8 lens also received a plastic front barrel to reduce size and weight. This corresponded with the introduction of the Canon A-series cameras which were smaller and lighter than the older, larger and heavier "F-series" bodies.

In 1978, with the introduction of the New FD series (nicknamed 'FDn'), the coating type was no longer specified on the lens front. All of these lenses received S.S.C. coating, with the sole exception of the 50mm f/1.8 lens. New FD lenses are easily identifiable by the replacement of the breech ring with a square metal release button at the base of the lens. When installing the lens, the entire body rotates except for the mating surfaces. This design allowed for the benefits of the precision breech lock and the ease of a bayonet mount.

Canon New FD 50 mm f/1.8 with caps.

The original breech-lock FD lenses and the New FD lenses are completely functionally interchangeable, and may each be used on any FD camera body. A minor operational difference between New FD and earlier lenses occurs only when using a Canon New F-1 body with the AE Finder FN in aperture preferred AE mode. The New FD lenses' aperture rings were placed closer to the rear of the lens so that the aperture value is visible in the new F-1's viewfinder, via an optical prism. Earlier lenses' aperture scales do not align properly with the prism, and are therefore not visible.

Aspherical, Fluorite or 'L' lenses

[edit]
L-series lenses
FD 55 mm f/1.2 S.S.C. Aspherical
New FD 20–35 mm f/3.5L, with red ring

An enhanced range of FD lenses was available to photographers who required the highest optical and mechanical performance. In addition to more robust mechanical construction, these lenses used a variety of special technologies, including ground aspherical surfaces, fluorite optical elements, and ultra-low-dispersion glass. Canon used these means to achieve outstanding optical performance at the extremes of lens design: wide apertures and extreme focal lengths. Aspherical surfaces improved performance of wide-angle and standard lenses at very wide apertures. Ultra-low dispersion and fluorite elements virtually eliminated chromatic aberration at long focal lengths.[7]

The earlier versions of these lenses carried "AL", "Aspherical", or "Fluorite" indications on the front of the lens. The post-1979 'New FD' versions acknowledged all the exotic technologies under the single designation "L" (commonly believed to indicate 'luxury' or 'asphericaL'). Canon has continued the "L" designation, and the famous red ring around the lens front, in the current EF and RF autofocus lenses for EOS cameras, where the symbol now officially stands for "Luxury."

Macro lenses

[edit]

The FD series included a number of zoom lenses with close-focusing mechanisms, targeted at amateur photographers. The series also included three true macro lenses at 50mm, 100mm, and 200mm. These offered exceptionally close focusing and were corrected for flatness of field at close shooting distances. The 50mm and 100mm were marketed with extension tubes that allowed life-size reproduction. The 200mm can reach life size without additional extension.

Special-purpose lenses

[edit]

Canon offered seven specialty lenses for the FD mount. The 35mm f/2.8 Tilt-Shift lens is a perspective control lens which includes controls to shift the lens off-axis by ±11mm for perspective control. In addition to shift, it may be tilted ±8 degrees for depth of field control; both movements are possible simultaneously. Though it uses the breech-lock mount, it is not literally an FD lens since its diaphragm is operated manually and it must be used with stop-down metering.

The 85mm f/2.8 Soft Focus lens is designed for portraiture. The photographer may introduce three levels of spherical aberration by sliding the focusing ring forward or backward. Since aperture also affects the magnitude of the soft focus effect, a wide range of results are possible. The lens may also be used as a standard short telephoto. It offers all FD features.

The Reflex 500mm f/8 lens is a supertelephoto catadioptric lens of high optical quality which shares the unique characteristics of all mirror lenses with a central obstruction. Since its aperture is fixed at f/8, it lacks FD signals and controls. It must be used in manual or stopped-down metering mode.

Fish-Eye FD 15 mm f/2.8 and storage case

Canon also produced two fisheye lenses. The 7.5mm f/5.6 is a circular fisheye, rendering a 180 degree field of view in a 23mm image circle. It is technically a FL lens, as it requires manual diapragm operation and stopped-down metering. The 15mm f/2.8 is a full-frame fisheye, rendering a 180 degree field of view across the diagonal of the 35mm frame with the considerable barrel distortion of a fisheye lens. It includes all FD features and may be used with automatic exposure. Both lenses include internal filters.

The remaining specialty lenses are the 20mm f/3.5 and 35mm f/2.8 Macrophoto lenses. Similar to microscope objectives, they provide magnifications of 4X-10X and 2X-6X respectively when mounted on the FD Auto Bellows. They can only be used with a bellows, via an FD adapter; while the adapter can mechanically mount them directly to a camera, they cannot function optically. They are not properly FD lenses, but are listed here because they are part of the whole system.[8]

FD autofocusing lenses

[edit]
Canon AC 35–70 f/3.5–4.5 lens mount; compared to the conventional FD mount, there are six pogo pin contacts instead of the "Reserved" mechanical pin.

Before the FD mount was obsoleted by the EOS system, Canon built four autofocus lenses. Of these, only the FD 35-70mm f/4 AF was capable of autofocus on all FD cameras. The others, known as AC lenses, offered autofocus only on the T80 camera.

The FD 35-70mm f/4 AF contained an entirely independent autofocus system and was among the world's first autofocus zoom lenses (the Pentax ME F was the first[9] ). The autofocus system was activated by a button on the side of the lens, and involved no communication with the camera body. It was reasonably accurate with still subjects, but was too slow to be a practical solution for moving subjects such as sports.[10]

Canon T80 with AC 35–70 mm f/3.5–4.5

Further development produced the AC derivative of the FD mount. Three AC lenses were manufactured, the AC 50mm f/1.8, AC 35-70mm f/3.5-4.5, and AC 75-200mm f/4.5. All were released in April, 1985 alongside the Canon T80 camera, which was the only camera ever manufactured to take advantage of the AC lenses' AF capabilities. The lenses communicated with the T80 via a modified FD mount with added electrical contacts. They lacked an aperture ring, and were therefore usable only in automatic-exposure modes. They were otherwise identical to the FD mount and could be manually focused on those FD-mount cameras that could control the aperture. The AC line proved to be a dead-end development in light of the EF series development, and Canon would abandon the capability in the three remaining FD-mount cameras it produced, the New F-1, T90, and T60.

Using FD lenses on other mounts

[edit]

The 42mm flange focal distance of the FD mount is shorter than that of most other lens mounts. Therefore, some lenses from other period cameras with longer flange focal distance can be mounted on Canon FD-mount cameras with appropriate adapters and still retain infinity focus. FD lenses can be adapted to other cameras with longer flange focal distances, though the lenses cannot focus to infinity unless the adapter contains an optical correction element which may compromise image quality, as it is not part of the original FD lens optical design.

Following the introduction of the EOS camera line, whose EF lens mount has a 44 mm flange focal distance, Canon briefly marketed an adapter which enabled certain FD telephoto lenses to be used on EOS bodies. The adapter contained high-quality corrective optics and functioned as a 1.26x tele-converter; it could not be used on lenses shorter than 200mm in focal length, nor any lens that interfered with its protruding optics. The adapter was produced in limited numbers, with the intent of easing the initial cost of conversion for professional users who owned expensive FD telephoto lenses. Originally priced at $250, these adapters are now scarce and highly valued, selling for around $1,000 on the second-hand market. Other inexpensive aftermarket FD to EOS adapters are available and can be used at the cost of severely reduced image quality, particularly at large apertures.[11][12]

Mechanically skilled photographers and technicians have successfully retrofitted FD lenses with alternative mounts, including the Arri PL mount and Canon EF mount.

New FD 17 mm f/4 mounted on a μ4/3 camera, Panasonic Lumix DMC-GX8, using a shifting adapter

FD lenses can be mounted on Canon rangefinder cameras or other Leica screw mount cameras using the Canon Lens Mount Adapter B, but rangefinder-coupled focusing is lost.

FD lenses have been regularly used with the Micro Four Thirds system since its introduction in 2008. It has a flange focal distance of only 20mm and a 2× crop factor, halving the field of view compared to the original 24x36mm film frame.

As of 2012, with the introduction of the Canon EOS M mirrorless camera, almost all FD or FL lenses can be successfully adapted with infinity focus available without the need for a compensating lens, thus not compromising resolution, contrast and distortion performance. The EOS-M has an 18 megapixel APS-C sensor, offering image quality and resolution equivalent to other Canon EF-S APS-C sized sensors, retaining their 1.6× crop factor. The FD/FL lens must be manually focused and metering is done with aperture priority.[13]

FD lenses can also be mounted to current mirrorless digital cameras with short flange focal distance, using simple mechanical adapters without optical correction. FD lenses, especially wide and ultra-wide f/2.8, f/2 and f/1.4 variants, have proven popular options for videography for these mirrorless formats.

List of Canon-made FD-mount camera bodies and lenses

[edit]
Canon F-1 and F-1n cameras, with FD lenses

FD cameras

[edit]

FD lenses

[edit]
  • FD 50mm f/1.8 S.C. (chrome locking ring)
    FD 50mm f/1.8 S.C. (chrome locking ring)
  • New FD 50mm f/1.8
    New FD 50mm f/1.8
  • New FD 135mm f/3.5; note chrome locking button
    New FD 135mm f/3.5; note chrome locking button
  • New FD 35-70mm f/3.5–4.5
    New FD 35-70mm f/3.5–4.5

The FD series includes lenses of all standard focal lengths ranging from 7.5mm to 800mm. At least two different maximum apertures were offered at each focal length from 24mm to 500mm.

The original generation of FD lenses featured a silver colored locking ring at the base, similar to the preceding FL and R series lenses. Only the locking ring turns to lock the lens to the camera body; the lens body remains stationary.[14] The later New FD lenses have a black mount which includes a chrome lens release button.[15]

Note that some lenses listed below were marketed in only one generation. Lenses of identical focal lengths and maximum apertures that spanned both generations, in addition to their altered mounts, were typically smaller and lighter in the New FD generation, and usually used smaller diameter filters.[1][16]

Canon FD and New FD lenses[14][15]
Focal length (mm) Name Aperture Year Construc. (Ele/Grp) Min. focus (Mag.) Filter (mm) Dia. × Len. Wgt. Notes
Fisheye lenses
7.5 Fish-Eye FD 7.5mm f/5.6 f/5.6–22 Jan 1971 11/8 fixed, 0.3 m (1.0 ft)
(0.027×) 		built-in 72×62 mm (2.8×2.4 in) 380 g (13 oz) [17]
Fish-Eye FD 7.5mm f/5.6 S.S.C. f/5.6–22 Feb 1973 11/8 fixed, 0.3 m (1.0 ft)
(0.027×) 		built-in 72×62 mm (2.8×2.4 in) 380 g (13 oz) [18]
New Fish-Eye 7.5mm f/5.6 f/5.6–22 Jun 1979 11/8 fixed, 0.3 m (1.0 ft)
(0.027×) 		built-in 72×62 mm (2.8×2.4 in) 380 g (13 oz) [19]
15 Fish-Eye FD 15mm f/2.8 S.S.C. f/2.8–16 Apr 1973 10/9 0.3 m (1.0 ft)
(0.056×) 		built-in 76×60.5 mm (3.0×2.4 in) 485 g (17.1 oz) [20]
New Fish-Eye FD 15mm f/2.8 f/2.8–16 Jan 1980 10/9 0.2 m (0.7 ft)
(0.14×) 		built-in 76×60.5 mm (3.0×2.4 in) 460 g (16 oz) [21]
Ultra wide angle lenses
14 New FD 14mm f/2.8L f/2.8–22 Jul 1982 14/10 0.25 m (0.8 ft)
(0.099×) 		rear, gel 74×83.5 mm (2.9×3.3 in) 490 g (17 oz) [22]
17 FD 17mm f/4 f/4–22 Mar 1971 11/9 0.25 m (0.8 ft)
(0.1×) 		72 75×56 mm (3.0×2.2 in) 490 g (17 oz) [23]
FD 17mm f/4 S.S.C. f/4–22 Mar 1973 11/9 0.25 m (0.8 ft)
(0.1×) 		72 75×56 mm (3.0×2.2 in) 450 g (16 oz) [24]
New FD 17mm f/4 f/4–22 Dec 1979 11/9 0.25 m (0.8 ft)
(0.1×) 		72 76.5×56 mm (3.0×2.2 in) 360 g (13 oz) [25]
20 FD 20mm f/2.8 S.S.C. f/2.8–22 Mar 1973 10/9 0.25 m (0.8 ft)
(0.126×) 		72 75×58 mm (3.0×2.3 in) 345 g (12.2 oz) [26]
New FD 20mm f/2.8 f/2.8–22 Dec 1979 10/9 0.25 m (0.8 ft)
(0.13×) 		72 76.5×58 mm (3.0×2.3 in) 305 g (10.8 oz) [27]
Wide angle lenses
24 FD 24mm f/1.4 S.S.C. Aspherical f/1.4–16 Mar 1975 10/8 0.3 m (1.0 ft)
(0.117×) 		72 75×68 mm (3.0×2.7 in) 500 g (18 oz) [28]
New FD 24mm f/1.4L f/1.4–16 Dec 1979 10/8 0.3 m (1.0 ft)
(0.12×) 		72 76.5×68 mm (3.0×2.7 in) 430 g (15 oz) [29]
New FD 24mm f/2 f/2–22 Jun 1979 11/9 0.3 m (1.0 ft)
(0.11×) 		52 63×50.6 mm (2.5×2.0 in) 285 g (10.1 oz) [30]
FD 24mm f/2.8 f/2.8–16 Mar 1971 9/8 0.3 m (1.0 ft)
(0.114×) 		55 66×52.5 mm (2.6×2.1 in) 410 g (14 oz) [31]
FD 24mm f/2.8 S.S.C. f/2.8–16 Mar 1973 9/8 0.3 m (1.0 ft)
(0.114×) 		55 66×52.5 mm (2.6×2.1 in) 330 g (12 oz) [32]
New FD 24mm f/2.8 f/2.8–22 Jun 1979 10/9 0.3 m (1.0 ft)
(0.11×) 		52 63×43 mm (2.5×1.7 in) 240 g (8.5 oz) [33]
28 FD 28mm f/2 S.S.C. f/2–22 Nov 1975 9/8 0.3 m (1.0 ft)
(0.135×) 		55 66×61 mm (2.6×2.4 in) 343 g (12.1 oz) [34]
New FD 28mm f/2 f/2–22 Jun 1979 10/9 0.3 m (1.0 ft)
(0.13×) 		52 63×47.2 mm (2.5×1.9 in) 265 g (9.3 oz) [35]
FD 28mm f/2.8 S.C. (I) f/2.8–22 Mar 1975 7/7 0.3 m (1.0 ft)
(0.134×) 		55 64.6×49 mm (2.5×1.9 in) 280 g (9.9 oz) [36]
FD 28mm f/2.8 S.C. (II) f/2.8–22 Nov 1977 7/7 0.3 m (1.0 ft)
(0.134×) 		55 65×47.2 mm (2.6×1.9 in) 230 g (8.1 oz) [36]
New FD 28mm f/2.8 f/2.8–22 Jun 1979 7/7 0.3 m (1.0 ft)
(0.13×) 		52 63×40 mm (2.5×1.6 in) 170 g (6.0 oz) [37]
FD 28mm f/3.5 f/3.5–16 Mar 1971 6/6 0.4 m (1.3 ft)
(0.084×) 		55 64×43 mm (2.5×1.7 in) 290 g (10 oz) [38]
FD 28mm f/3.5 S.C. f/3.5–16 Mar 1973 6/6 0.4 m (1.3 ft)
(0.084×) 		55 64×43 mm (2.5×1.7 in) 250 g (8.8 oz) [39]
35 FD 35mm f/2 (I) f/2–16 Mar 1971 9/8 0.3 m (1.0 ft)
(0.194×) 		55 64×60 mm (2.5×2.4 in) 420 g (15 oz) [40]
FD 35mm f/2 (II) f/2–16 ? 9/8 0.3 m (1.0 ft)
(0.194×) 		55 67×60 mm (2.6×2.4 in) 420 g (15 oz) [41]
FD 35mm f/2 (III) f/2–16 Jan 1973 9/8 0.3 m (1.0 ft)
(0.194×) 		55 67×60 mm (2.6×2.4 in) 420 g (15 oz) [42]
FD 35mm f/2 S.S.C. (I) f/2–16 Mar 1973 9/8 0.3 m (1.0 ft)
(0.194×) 		55 64×60 mm (2.5×2.4 in) 370 g (13 oz) [43]
FD 35mm f/2 S.S.C. (II) f/2–22 Apr 1976 9/8 0.3 m (1.0 ft)
(0.194×) 		55 65.3×60 mm (2.6×2.4 in) 345 g (12.2 oz) [44]
New FD 35mm f/2 f/2–22 Dec 1979 10/8 0.3 m (1.0 ft)
(0.17×) 		52 63×46 mm (2.5×1.8 in) 245 g (8.6 oz) [45]
TS 35mm f/2.8 S.S.C. f/2.8–22 Mar 1973 9/8 0.3 m (1.0 ft)
(0.192×) 		58 67×74.5 mm (2.6×2.9 in) 550 g (19 oz) [46]
FD 35mm f/3.5 f/3.5–22 Mar 1971 6/6 0.4 m (1.3 ft)
(0.115×) 		55 64×49 mm (2.5×1.9 in) 325 g (11.5 oz) [47]
FD 35mm f/3.5 S.C. (I) f/3.5–22 Mar 1973 6/6 0.4 m (1.3 ft)
(0.115×) 		55 64×49 mm (2.5×1.9 in) 295 g (10.4 oz) [48]
FD 35mm f/3.5 S.C. (II) f/3.5–22 Mar 1975 6/6 0.4 m (1.3 ft)
(0.115×) 		55 64.3×49 mm (2.5×1.9 in) 236 g (8.3 oz) [49]
FD 35mm f/3.5 S.C. (III) f/3.5–22 Jul 1977 6/6 0.4 m (1.3 ft)
(0.115×) 		55 65×47 mm (2.6×1.9 in) 236 g (8.3 oz) [50]
Normal lenses
50 New FD 50mm f/1.2 f/1.2–16 Dec 1980 7/6 0.5 m (1.6 ft)
(0.13×) 		52 65.3×45.6 mm (2.6×1.8 in) 315 g (11.1 oz) [51]
New FD 50mm f/1.2L f/1.2–16 Oct 1980 8/6 0.5 m (1.6 ft)
(0.13×) 		52 65.3×50.5 mm (2.6×2.0 in) 380 g (13 oz) [52]
FD 50mm f/1.4 f/1.4–16 Mar 1971 7/6 0.45 m (1.5 ft)
(0.145×) 		55 66×49 mm (2.6×1.9 in) 370 g (13 oz) [53]
FD 50mm f/1.4 S.S.C. (I) f/1.4–16 Mar 1973 7/6 0.45 m (1.5 ft)
(0.145×) 		55 67×49 mm (2.6×1.9 in) 350 g (12 oz) [54]
FD 50mm f/1.4 S.S.C. (II) f/1.4–16 Jun 1973 7/6 0.45 m (1.5 ft)
(0.145×) 		55 65.3×49 mm (2.6×1.9 in) 305 g (10.8 oz) [55]
New FD 50mm f/1.4 f/1.4–22 Jun 1979 7/6 0.45 m (1.5 ft)
(0.15×) 		52 63×41 mm (2.5×1.6 in) 235 g (8.3 oz) [56]
FD 50mm f/1.8 (I) f/1.8–16 Mar 1971 6/4 0.6 m (2.0 ft)
(0.103×) 		55 65×44.5 mm (2.6×1.8 in) 305 g (10.8 oz) [57]
FD 50mm f/1.8 (II) f/1.8–16 Nov 1971 6/4 0.6 m (2.0 ft)
(0.103×) 		55 65×44.5 mm (2.6×1.8 in) 305 g (10.8 oz) [58]
FD 50mm f/1.8 S.C. (I) f/1.8–16 Mar 1973 6/4 0.6 m (2.0 ft)
(0.103×) 		55 64×44.5 mm (2.5×1.8 in) 255 g (9.0 oz) [59]
FD 50mm f/1.8 S.C. (II) f/1.8–16 Mar 1976 6/4 0.6 m (2.0 ft)
(0.103×) 		55 63×38.5 mm (2.5×1.5 in) 200 g (7.1 oz) [60]
New FD 50mm f/1.8 f/1.8–22 Jun 1979 6/4 0.6 m (2.0 ft)
(0.1×) 		52 63×35 mm (2.5×1.4 in) 170 g (6.0 oz) [61]
New FD 50mm f/2 f/2–16 Jul 1980 6/4 0.6 m (2.0 ft)
(0.1×) 		52 63×35 mm (2.5×1.4 in) 170 g (6.0 oz) [62]
FD M 50mm f/3.5 S.S.C. f/3.5–22 Mar 1973 6/4 0.232 m (0.8 ft)
(0.5×) 		55 65.8×59.5 mm (2.6×2.3 in) 310 g (11 oz) [63]
New Macro FD 50mm f/3.5 f/3.5–32 Jun 1979 6/4 0.232 m (0.8 ft)
(0.5×) 		52 63×57 mm (2.5×2.2 in) 235 g (8.3 oz) [64]
55 FD 55mm f/1.2 f/1.2–16 Mar 1971 7/5 0.6 m (2.0 ft)
(0.109×) 		58 75.8×52.5 mm (3.0×2.1 in) 565 g (19.9 oz) [65]
FD 55mm f/1.2 AL f/1.2–16 Mar 1971 8/6 0.6 m (2.0 ft)
(0.11×) 		58 75.8×55 mm (3.0×2.2 in) 605 g (21.3 oz) [66]
FD 55mm f/1.2 S.S.C. f/1.2–16 Mar 1973 7/5 0.6 m (2.0 ft)
(0.109×) 		58 75.8×52.5 mm (3.0×2.1 in) 565 g (19.9 oz) [67]
FD 55mm f/1.2 S.S.C. AL f/1.2–16 Mar 1973 8/6 0.6 m (2.0 ft)
(0.11×) 		58 75.8×55 mm (3.0×2.2 in) 575 g (20.3 oz) [68]
FD 55mm f/1.2 S.S.C. Aspherical f/1.2–16 Mar 1975 8/6 0.6 m (2.0 ft)
(0.11×) 		58 75.8×55 mm (3.0×2.2 in) 575 g (20.3 oz) [69]
Telephoto lenses
85 FD 85mm f/1.2 Aspherical f/1.2–16 Jan 1976 8/6 1 m (3.3 ft)
(0.1×) 		72 81×71 mm (3.2×2.8 in) 756 g (26.7 oz) [70]
New FD 85mm f/1.2L f/1.2–16 Mar 1980 8/6 0.9 m (3.0 ft)
(0.12×) 		72 80.8×71 mm (3.2×2.8 in) 680 g (24 oz) [71]
FD 85mm f/1.8 f/1.8–16 Jan 1976 6/4 0.9 m (3.0 ft)
(0.114×) 		55 67×57 mm (2.6×2.2 in) 425 g (15.0 oz) [72]
New FD 85mm f/1.8 f/1.8–22 Jun 1979 6/4 0.85 m (2.8 ft)
(0.12×) 		52 63×53.5 mm (2.5×2.1 in) 345 g (12.2 oz) [73]
New FD 85mm f/2.8 Soft Focus f/2.8–22 Feb 1983 6/4 0.8 m (2.6 ft)
(0.12×) 		58 70×70 mm (2.8×2.8 in) 400 g (14 oz) [74]
100 New FD 100mm f/2 f/2–32 Jan 1980 6/4 1 m (3.3 ft)
(0.12×) 		52 63×70 mm (2.5×2.8 in) 445 g (15.7 oz) [75]
FD 100mm f/2.8 f/2.8–22 Mar 1971 5/5 1 m (3.3 ft)
(0.13×) 		55 67×57 mm (2.6×2.2 in) 430 g (15 oz) [76]
FD 100mm f/2.8 S.S.C. f/2.8–22 Mar 1973 5/5 1 m (3.3 ft)
(0.13×) 		55 67×57 mm (2.6×2.2 in) 360 g (13 oz) [77]
New FD 100mm f/2.8 f/2.8–32 Jun 1979 5/5 1 m (3.3 ft)
(0.12×) 		52 63×53.4 mm (2.5×2.1 in) 270 g (9.5 oz) [78]
FD M 100mm f/4 S.C. f/4–32 Oct 1975 5/3 0.45 m (1.5 ft)
(0.5×) 		55 67×112 mm (2.6×4.4 in) 530 g (19 oz) [79]
New Macro FD 100mm f/4 f/4–32 Sep 1979 5/3 0.45 m (1.5 ft)
(0.5×) 		52 70.3×95 mm (2.8×3.7 in) 455 g (16.0 oz) [80]
135 New FD 135mm f/2 f/2–32 May 1980 6/5 1.3 m (4.3 ft)
(0.13×) 		72 78×90.4 mm (3.1×3.6 in) 670 g (24 oz) [81]
FD 135mm f/2.5 f/2.5–22 Mar 1971 6/5 1.5 m (4.9 ft)
(0.14×) 		58 69×91 mm (2.7×3.6 in) 670 g (24 oz) [82]
FD 135mm f/2.5 S.C. f/2.5–22 Mar 1973 6/5 1.5 m (4.9 ft)
(0.14×) 		58 69×91 mm (2.7×3.6 in) 630 g (22 oz) [83]
New FD 135mm f/2.8 f/2.8–32 Jun 1979 6/5 1.3 m (4.3 ft)
(0.13×) 		52 63×78 mm (2.5×3.1 in) 395 g (13.9 oz) [84]
FD 135mm f/3.5 f/3.5–22 Jul 1970 4/3 1.5 m (4.9 ft)
(0.098×) 		55 66×83 mm (2.6×3.3 in) 480 g (17 oz) [85]
FD 135mm f/3.5 S.C. (I) f/3.5–22 Mar 1973 4/3 1.5 m (4.9 ft)
(0.098×) 		55 66×83 mm (2.6×3.3 in) 465 g (16.4 oz) [86]
FD 135mm f/3.5 S.C. (II) f/3.5–22 Nov 1976 4/4 1.5 m (4.9 ft)
(0.098×) 		55 66×85 mm (2.6×3.3 in) 385 g (13.6 oz) [87]
New FD 135mm f/3.5 f/3.5–32 Jun 1979 4/4 1.3 m (4.3 ft)
(0.13×) 		52 63×85 mm (2.5×3.3 in) 325 g (11.5 oz) [88]
200 New FD 200mm f/1.8L f/1.8–22 Nov 1989 11/9 2.5 m (8.2 ft)
(0.09×) 		48 drop-in 130×208 mm (5.1×8.2 in) 2,800 g (6 lb 3 oz) [89]
FD 200mm f/2.8 S.S.C. f/2.8–22 Mar 1975 5/5 1.8 m (5.9 ft)
(0.15×) 		72 78×140.5 mm (3.1×5.5 in) 700 g (25 oz) [90]
New FD 200mm f/2.8 (I) f/2.8–32 Jun 1979 5/5 1.8 m (5.9 ft)
(0.15×) 		72 78×140.5 mm (3.1×5.5 in) 700 g (25 oz) [91]
New FD 200mm f/2.8 (II) f/2.8–32 Oct 1982 7/6 1.5 m (4.9 ft) 72 81.2×134.2 mm (3.2×5.3 in) 735 g (25.9 oz) [91]
FD 200mm f/4 f/4–22 Mar 1971 6/5 2.5 m (8.2 ft)
(0.1×) 		55 67×133 mm (2.6×5.2 in) 725 g (25.6 oz) [92]
FD 200mm f/4 S.S.C. f/4–22 Mar 1973 6/5 2.5 m (8.2 ft)
(0.1×) 		55 67×133 mm (2.6×5.2 in) 675 g (23.8 oz) [93]
New FD 200mm f/4 f/4–32 Jun 1979 7/6 1.5 m (4.9 ft)
(0.15×) 		52 63×121.5 mm (2.5×4.8 in) 440 g (16 oz) [94]
New Macro FD 200mm f/4 f/4–32 Apr 1981 9/6 0.58 m (1.9 ft)
(1.0×) 		58 68.8×182.4 mm (2.7×7.2 in) 830 g (29 oz) [95]
300 FD 300mm f/2.8 S.S.C. Fluorite f/2.8–22 Oct 1975 6/5 3.5 m (11.5 ft)
(0.1×) 		special 112×230 mm (4.4×9.1 in) 1,900 g (4 lb 3 oz) [96]
New FD 300mm f/2.8L f/2.8–22 Apr 1981 9/7 3 m (9.8 ft)
(0.11×) 		48 drop-in 127×245 mm (5.0×9.6 in) 2,310 g (5 lb 1 oz) [97]
FD 300mm f/4 S.S.C. f/4–22 Jan 1978 6/6 3 m (9.8 ft)
(0.11×) 		34 rear 85×204 mm (3.3×8.0 in) 965 g (34.0 oz) [98]
FD 300mm f/4L f/4–32 Dec 1978 7/7 3 m (9.8 ft)
(0.11×) 		34 rear 85×208 mm (3.3×8.2 in) 1,235 g (43.6 oz) [99]
New FD 300mm f/4 f/4–22 Jun 1979 6/6 3 m (9.8 ft)
(0.11×) 		34 rear 85×204 mm (3.3×8.0 in) 945 g (33.3 oz) [100]
New FD 300mm f/4L f/4–32 May 1980 7/7 3 m (9.8 ft)
(0.11×) 		34 rear 85×207 mm (3.3×8.1 in) 1,060 g (37 oz) [101]
FD 300mm f/5.6 f/5.6–22 Mar 1971 6/5 4 m (13.1 ft)
(0.09×) 		58 70×173 mm (2.8×6.8 in) 1,155 g (40.7 oz) [102]
FD 300mm f/5.6 S.C. f/5.6–22 Mar 1973 6/5 4 m (13.1 ft)
(0.09×) 		58 70×173 mm (2.8×6.8 in) 1,125 g (39.7 oz) [103]
FD 300mm f/5.6 S.S.C. f/5.6–22 Mar 1977 6/5 3 m (9.8 ft)
(0.125×) 		55 64.5×198.3 mm (2.5×7.8 in) 685 g (24.2 oz) [104]
New FD 300mm f/5.6 f/5.6–32 Jun 1979 6/5 3 m (9.8 ft)
(0.11×) 		58 65×198.5 mm (2.6×7.8 in) 635 g (22.4 oz) [105]
Super telephoto lenses
400 New FD 400mm f/2.8L f/2.8–32 Sep 1981 10/8 4 m (13.1 ft)
(0.11×) 		48 drop-in 166×348 mm (6.5×13.7 in) 5,350 g (11 lb 13 oz) [106]
FD 400mm f/4.5 S.S.C. f/4.5–22 Oct 1975 6/5 4 m (13.1 ft)
(0.135×) 		special 94×282 mm (3.7×11.1 in) 1,300 g (46 oz) [107]
New FD 400mm f/4.5 f/4.5–32 Jul 1981 6/5 4 m (13.1 ft)
(0.11×) 		34 rear 102×287.5 mm (4.0×11.3 in) 1,270 g (45 oz) [108]
500 FD 500mm f/4.5L f/4.5–32 May 1979 7/6 4 m (13.1 ft)
(0.14×) 		48 drop-in 127×395 mm (5.0×15.6 in) 2,950 g (6 lb 8 oz) [109]
New FD 500mm f/4.5L f/4.5–32 Dec 1981 7/6 5 m (16.4 ft)
(0.14×) 		48 drop-in 128×395 mm (5.0×15.6 in) 2,610 g (5 lb 12 oz) [110]
Reflex 500mm f/8 S.S.C. f/8 Aug 1978 6/3 4 m (13.1 ft)
(0.14×) 		34 rear 90×146 mm (3.5×5.7 in) 740 g (26 oz) [111]
New Reflex 500mm f/8 f/8 Mar 1980 6/3 4 m (13.1 ft)
(0.14×) 		34 rear 90×146 mm (3.5×5.7 in) 705 g (24.9 oz) [112]
600 FD 600mm f/4.5 S.S.C. f/4.5–22 Jul 1976 6/5 8 m (26.2 ft)
(0.079×) 		48 drop-in 149×455 mm (5.9×17.9 in) 4,300 g (9 lb 8 oz) [113]
New FD 600mm f/4.5 f/4.5–32 Jan 1981 6/5 8 m (26.2 ft)
(0.079×) 		48 drop-in 154×462 mm (6.1×18.2 in) 3,750 g (8 lb 4 oz) [114]
800 FD 800mm f/5.6 S.S.C. f/5.6–22 Jul 1976 6/5 14 m (45.9 ft)
(0.057×) 		48 drop-in 149×567 mm (5.9×22.3 in) 4,300 g (9 lb 8 oz) [115]
FD 800mm f/5.6L f/5.6–22 Dec 1979 7/6 14 m (45.9 ft)
(0.057×) 		48 drop-in 149×577 mm (5.9×22.7 in) 4,600 g (10 lb 2 oz) [116]
New FD 800mm f/5.6L f/5.6–32 Jan 1981 7/6 14 m (45.9 ft)
(0.057×) 		48 drop-in 154×577 mm (6.1×22.7 in) 4,230 g (9 lb 5 oz) [117]
Wide angle zoom lenses
20–35 New FD 20–35mm f/3.5L f/3.5–22 Apr 1984 11/11 0.5 m (1.6 ft)
(0.083×) 		72 76.5×84.2 mm (3.0×3.3 in) 470 g (17 oz) [118]
24–35 FD 24–35mm f/3.5 Aspherical f/3.5–22 Feb 1978 12/9 0.4 m (1.3 ft)
(0.11×) 		72 76×86.3 mm (3.0×3.4 in) 515 g (18.2 oz) [119]
New FD 24–35mm f/3.5L f/3.5–22 Dec 1979 12/9 0.4 m (1.3 ft)
(0.11×) 		72 76.5×86.6 mm (3.0×3.4 in) 495 g (17.5 oz) [120]
Wide to normal/telephoto zoom lenses
28–50 FD 28–50mm f/3.5 S.S.C. f/3.5–22 Jul 1976 10/9 1 m (3.3 ft)
(0.3×) 		58 69×105 mm (2.7×4.1 in) 470 g (17 oz) [121]
New FD 28–50mm f/3.5 f/3.5–22 Sep 1979 10/9 1 m (3.3 ft)
(0.05×) 		58 69×99.5 mm (2.7×3.9 in) 470 g (17 oz) [122]
28–55 New FD 28–55mm f/3.5–4.5 f/3.5–4.5 — 22 Dec 1983 10/10 0.4 m (1.3 ft)
(0.157×) 		52 63×60.9 mm (2.5×2.4 in) 220 g (7.8 oz) [123]
28–85 New FD 28–85mm f/4 f/4–22 Nov 1985 13/11 0.5 m (1.6 ft)
(0.101×) 		72 76.5×104.1 mm (3.0×4.1 in) 485 g (17.1 oz) [124]
35–70 FD 35–70mm f/3.5 S.S.C. f/3.5–22 Jul 1976 10/10 0.3 m (1.0 ft)
(0.087×) 		58 69×120 mm (2.7×4.7 in) 575 g (20.3 oz) [125]
New FD 35–70mm f/3.5 f/3.5–22 Sep 1979 10/10 1 m (3.3 ft)
(0.07×) 		58 69×120 mm (2.7×4.7 in) 545 g (19.2 oz) [126]
New FD 35–70mm f/3.5–4.5 f/3.5–4.5 — 22 Mar 1983 9/8 0.5 m (1.6 ft)
(0.15×) 		52 63×60.9 mm (2.5×2.4 in) 200 g (7.1 oz) [127]
New FD 35–70mm f/4 f/4–22 Sep 1979 8/8 0.5 m (1.6 ft)
(0.15×) 		52 63×84.5 mm (2.5×3.3 in) 315 g (11.1 oz) [128]
New FD 35–70mm f/4 AF f/4–22 May 1981 8/8 0.5 m (1.6 ft)
(0.15×) 		52 85×99.5 mm (3.3×3.9 in) 604 g (21.3 oz) [129]
35–105 New FD 35–105mm f/3.5 f/3.5–22 Apr 1981 15/13 1.5 m (4.9 ft)
(0.079×) 		72 76.5×108.4 mm (3.0×4.3 in) 600 g (21 oz) [130]
New FD 35–105mm f/3.5–4.5 f/3.5–4.5 — 22 Dec 1985 14/11 1.2 m (3.9 ft)
(0.103×) 		58 66.8×83.7 mm (2.6×3.3 in) 345 g (12.2 oz) [131]
Normal & telephoto zoom lenses
50–135 New FD 50–135mm f/3.5 f/3.5–22 Dec 1981 16/12 1.5 m (4.9 ft)
(0.11×) 		58 71.4×125.4 mm (2.8×4.9 in) 720 g (25 oz) [132]
50–300 New FD 50–300mm f/4.5L f/4.5–32 Jul 1982 16/13 2.53 m (8.3 ft)
(0.144×) 		34 rear 104×250 mm (4.1×9.8 in) 1,800 g (63 oz) [133]
70–150 New FD 70–150mm f/4.5 f/4.5–32 Jun 1979 12/9 1.5 m (4.9 ft)
(0.13×) 		52 63×132 mm (2.5×5.2 in) 530 g (19 oz) [134]
70–210 New FD 70–210mm f/4 f/4–32 Oct 1980 12/9 1.2 m (3.9 ft)
(0.23×) 		58 72.2×151 mm (2.8×5.9 in) 705 g (24.9 oz) [135]
75–200 New FD 75–200mm f/4.5 f/4.5–32 Jul 1984 11/8 1.8 m (5.9 ft)
(0.134×) 		52 71×123 mm (2.8×4.8 in) 510 g (18 oz) [136]
80–200 FD 80–200mm f/4 S.S.C. f/4–32 Oct 1976 15/11 1 m (3.3 ft)
(0.29×) 		55 68×161 mm (2.7×6.3 in) 750 g (26 oz) [137]
New FD 80–200mm f/4 f/4–32 Jun 1979 15/11 1 m (3.3 ft)
(0.29×) 		58 67.9×161 mm (2.7×6.3 in) 765 g (27.0 oz) [138]
New FD 80–200mm f/4L f/4–32 Nov 1985 14/12 0.95 m (3.1 ft)
(0.22×) 		58 72.8×153 mm (2.9×6.0 in) 675 g (23.8 oz) [139]
85–300 FD 85–300mm f/4.5 S.S.C. f/4.5–22 Apr 1974 15/11 2.5 m (8.2 ft)
(0.147×) 		Series IX 94×243.5 mm (3.7×9.6 in) 1,800 g (63 oz) [140]
New FD 85–300mm f/4.5 f/4.5–32 Jan 1981 15/11 2.5 m (8.2 ft)
(0.147×) 		Series IX 94×246.8 mm (3.7×9.7 in) 1,630 g (57 oz) [141]
100–200 FD 100–200mm f/5.6 f/5.6–22 May 1971 8/5 2.5 m (8.2 ft)
(0.1×) 		55 66×174 mm (2.6×6.9 in) 820 g (29 oz) [142]
FD 100–200mm f/5.6 S.C. f/5.6–22 Mar 1973 8/5 2.5 m (8.2 ft)
(0.1×) 		55 66×173 mm (2.6×6.8 in) 765 g (27.0 oz) [143]
New FD 100–200mm f/5.6 f/5.6–32 Jun 1979 8/5 2.5 m (8.2 ft)
(0.1×) 		52 63×167 mm (2.5×6.6 in) 610 g (22 oz) [144]
100–300 New FD 100–300mm f/5.6 f/5.6–22 May 1980 14/9 2 m (6.6 ft)
(0.18×) 		58 72.2×207 mm (2.8×8.1 in) 835 g (29.5 oz) [145]
New FD 100–300mm f/5.6L f/5.6–32 Nov 1985 15/11 1 m (3.3 ft)
(0.3×) 		58 71.4×172 mm (2.8×6.8 in) 710 g (25 oz) [146]
Super telephoto zoom lenses
150–600 New FD 150–600mm f/5.6L f/5.6–32 Aug 1982 19/15 12 m (39.4 ft)
(0.26×) 		34 rear 123×468 mm (4.8×18.4 in) 4,350 g (9 lb 9 oz) [147]
Soligor 80 - 200 mm f/3.5
Special limited production
Macrophoto lenses

In addition to first-party lenses sold by Canon and listed here, numerous OEM and third-party manufacturers built lenses with Canon FD mount, including Cosina, Kiron, Sigma, Soligor, Tamron, Tokina, and Vivitar.

References

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Canon FD lens mount

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The Canon FD lens mount is a bayonet mount system developed by Canon Inc. for attaching interchangeable lenses to 35mm single-lens reflex (SLR) cameras, featuring a three-lug spigot-type design that supports full-aperture metering and automatic exposure functions. Introduced in 1971 alongside the professional-grade Canon F-1 camera body, it succeeded the earlier Canon FL mount and marked a significant advancement in Canon's SLR ecosystem by enabling through-the-lens (TTL) metering at maximum aperture for the first time in the company's lineup. The FD mount was designed to accommodate a wide array of high-performance lenses, ranging from wide-angle fisheyes to super-telephoto models, and quickly became the standard for Canon's manual-focus SLR cameras throughout the and . Its key technical specifications include a 42 mm —measuring from the mount flange to the film plane—and a 48 mm inner diameter, which provided compatibility with robust lens constructions while maintaining a compact profile for the era's camera bodies. The mount incorporates mechanical levers and pins, such as the signal lever for aperture information and the auto aperture lever for stop-down control, allowing seamless integration with the camera's exposure systems. In 1979, Canon refined the system with the New FD variant, which retained full backward compatibility with original FD lenses but introduced improvements like a simplified bayonet locking mechanism for easier attachment and a black chromium finish on lens barrels for reduced flare. This evolution supported an expansive lens catalog, including aspherical elements in models like the FD 55 mm f/1.2 AL for enhanced optical sharpness, and extended to specialized optics such as the FD 150-600 mm f/5.6 L telephoto zoom. The FD system powered iconic cameras like the F-1, AE-1, and A-1, emphasizing durability with components tested for 100,000 attachment cycles under extreme conditions ranging from -30°C to 60°C. The FD mount's production spanned from 1971 to 1987, when it was superseded by the autofocus-compatible EF mount introduced with the camera line, rendering FD lenses incompatible without adapters due to the EF's longer 44 mm flange distance. Despite this transition, FD lenses remain popular among enthusiasts for their optical quality and are adaptable to modern mirrorless systems via flange-extending adapters, preserving their legacy in vintage and hybrid photography workflows.

History and Development

Origins and Introduction

The Canon FD lens mount emerged as part of Canon's strategic evolution in the late , transitioning from the earlier Canon R screw mount and the FL breech-lock , which were limited in supporting advanced control mechanisms necessary for emerging automated exposure systems. The FL mount, introduced in 1964, relied on a single automatic diaphragm pin that restricted full-aperture metering to stopped-down operation, prompting Canon to develop a new standard for better integration with electronic controls and professional-grade performance. This shift was driven by the need to address design constraints in ing and signaling, laying the groundwork for a of high-performance . The FD mount was officially introduced in March 1971 alongside the professional SLR camera body, marking Canon's entry into a more automated era of . It debuted with the initial FD lenses, replacing the FL system entirely for new camera bodies like the F-1 and FTb, while maintaining backward compatibility through adapters. The mount's bayonet design allowed for quicker lens changes compared to the FL's breech-lock, enhancing usability in professional workflows. Key motivations for the FD mount's creation included enabling improved automation, such as full-aperture TTL metering via an additional signal pin for maximum aperture transmission, which supported future shutter-priority exposure modes. This addressed the demand for wider aperture compatibility in fast lenses, allowing precise exposure calculations without manual stopping down, and positioned Canon to compete directly with the mount's dominance in the professional market. The design emphasized durability and optical excellence to meet the needs of photojournalists and studio photographers transitioning to electronic-assisted systems. The initial FD lens lineup consisted of 14 prime lenses released in March 1971, spanning a wide focal length range from the 15mm f/2.8 S.S.C. Fisheye to the 500mm f/4.5, providing comprehensive coverage for various photographic applications. Representative examples included the standard FD 50mm f/1.4 S.S.C. for everyday use and the telephoto FD 300mm f/2.8 S.S.C. for sports and , all featuring Spectacle Super Coating to reduce flare and enhance contrast. This assortment established the FD system's versatility from the outset.

Evolution from FL Mount

The Canon FL mount, introduced in 1964, utilized a breech-lock mechanism that allowed for quick lens attachment without rotation of the entire lens barrel, but it suffered from limitations in metering and control. Specifically, the FL system required manual stop-down metering, where photographers had to physically rotate the ring to the desired setting for accurate exposure readings, which was particularly cumbersome with fast wide- lenses that demanded precise and rapid adjustments during dynamic shooting scenarios. To address these shortcomings, Canon developed the FD mount, launched in March 1971 alongside the F-1 camera body, retaining the breech-lock design but incorporating significant refinements for enhanced reliability and automation. Key upgrades included a positive locking mechanism on the breech ring to prevent accidental disengagement during use, full-aperture metering support through an integrated that allowed the camera to automatically stop down only at the moment of exposure, and direct control via the lens's ring for seamless interaction with the camera's meter. These changes eliminated the need for manual intervention in metering, enabling brighter viewfinders and more intuitive operation. In 1973, Canon introduced compatibility adapters to facilitate the use of existing FL lenses on new FD bodies, though these required stop-down metering and did not unlock full-aperture capabilities; minor revisions to the FD mount followed, focusing on improved durability of the breech-lock components through better materials and tolerances to withstand repeated use in environments. Overall, these evolutions greatly enhanced usability by allowing faster lens changes—typically under two seconds via the breech-lock—while providing tighter integration with Canon's emerging A-series (starting ) and F-1 bodies, fostering a more efficient for photographers transitioning from the FL era.

Discontinuation and Succession

By the mid-1980s, the rise of technology among competitors pressured Canon to reevaluate the FD mount's viability, as its manual-focus design could not easily accommodate in-lens AF motors without major redesigns. led the charge with the Maxxum 7000 in February 1985, the world's first 35mm SLR with integrated autofocus and motorized advance, capturing significant . followed suit in April 1986 with the F-501 (N2020 in some markets), introducing TTL phase-detection AF to its F-mount system and further highlighting the FD's limitations in the evolving AF era. In response, Canon developed the Electro-Optical System (EOS) as a complete overhaul, announcing it on , 1987—Canon's 50th anniversary—with the EF and the EOS 650 camera as its flagship. The EF mount featured a wider diameter (54mm vs. FD's 48mm) and longer (44mm vs. 42mm) to support larger s, electronic control, and dedicated AF motors like the (USM) for silent, high-speed focusing. This launch effectively ended new FD mount development, signaling Canon's pivot to a fully electronic ecosystem incompatible with prior mechanical mounts. FD camera production wound down gradually to honor existing users and inventory. The T90, released in February 1986, served as the final professional-grade FD body, boasting advanced features like seven-zone evaluative metering and compatibility with Canon's limited FD AF lenses (e.g., the 35-70mm f/4 AF). The T60 followed in 1990 as a budget overseas model built by , designed specifically to consume remaining FD lens stocks rather than introduce innovations. New FD lens production concluded in 1989, though surplus units remained available into the early 1990s via Canon's distribution channels. The succession emphasized a clean break for technological progress, with Canon committing no official between EF bodies and FD lenses due to the flange distance mismatch, which prevents without corrective . Instead, the company focused on the EF mount's electronic integration for seamless , , and , while briefly extending FD support through the T60 to ease the market transition. This strategic shift propelled Canon to dominance in the AF SLR market, producing over 150 million EF lenses by 2020.

Technical Specifications

Mechanical Design

The Canon FD lens mount employs a flange focal distance of 42 mm, identical to that of the preceding FL mount, enabling seamless compatibility with earlier lenses while maintaining precise focus registration at the film plane. This standardized distance ensures that the lens rear element positions correctly relative to the camera's focal plane without requiring adjustments. The original FD mount (1971–1979) uses a breech-lock mechanism: the lens is aligned with the mount via index marks and inserted, then secured by rotating the camera body's locking ring clockwise until it locks. The New FD variant (1979–1987) employs a three-lug design, where the lens lugs are aligned with the body slots, positioned against the mount, and rotated clockwise approximately 70 degrees until it locks positively; removal is facilitated by a release button on the camera body followed by counterclockwise rotation. Both designs incorporate friction elements to provide smooth engagement and prevent slippage, enhancing durability and ease of use compared to threaded mounts. Aperture control is managed through an integrated ring on the lens barrel, which couples with the camera's internal stop-down for diaphragm operation during exposure. Full- metering is supported by an internal signal that communicates the selected to the camera's metering system, while a separate full- signal pin conveys the lens's maximum value. Upon shutter release, the camera's actuates the lens's mechanism, closing the diaphragm blades to the preset f-stop and reopening them afterward, ensuring accurate exposure without manual intervention. The lens-body interface accommodates rear-group focusing designs common in FD lenses, where the trailing optical elements can extend close to the focal plane for improved close-up performance without interfering with the mirror or shutter mechanisms.

Optical and Electrical Interfaces

The Canon FD lens mount facilitated full-aperture through-the-lens (TTL) metering, allowing photographers to compose and focus with the lens diaphragm wide open for a brighter viewfinder image, while the camera body integrated photocells—typically cadmium sulfide (CdS) or silicon photodiodes in later models—to measure light levels passing through the lens. This system relied on mechanical communication between the lens and camera, where the lens's maximum aperture information was transmitted via a dedicated full-aperture signal pin, enabling the body to calculate appropriate exposure adjustments without manual intervention. For the actual exposure, a stop-down lever in the mount briefly closed the diaphragm to the selected aperture, ensuring accurate TTL measurement during shutter release, which marked a significant advancement over the stop-down metering of the predecessor FL mount. In terms of data exchange, the FD mount employed a set of five mechanical pins and levers at the lens rear, rather than electrical contacts, to convey essential information such as maximum and selected apertures to the camera body. These included the full-aperture signal pin for automatic aperture indexing, an switch pin to detect when the aperture ring was set to "A" for automatic exposure modes, and other levers for stop-down control and minimum aperture signaling. This mechanical interface supported advanced exposure automation in later New FD lenses and compatible bodies, such as program and shutter-priority modes on Canon A-series cameras, by allowing the body to interpret aperture data for optimal shutter speed selection, though it lacked provisions for drive or electronic power transfer. All Canon FD lenses featured standard multi-layer Super Spectra Coating (SSC) applied to their glass elements, a proprietary anti-reflective treatment that minimized flare, ghosting, and internal reflections while enhancing light transmission and color fidelity across the . This coating, introduced with the early FD series and refined in New FD variants, consisted of multiple thin layers optimized for performance, contributing to improved contrast and sharpness in various lighting conditions. Select high-end FD lenses, particularly in the L-series telephoto lineup, incorporated Ultra-low Dispersion (UD) glass elements alongside or instead of to correct chromatic aberrations, reducing color fringing and enabling compact designs with superior ; for instance, the FD 500mm f/4.5L utilized UD elements to achieve high without excessive size or weight. For manual precision, FD lens barrels included engraved preset aperture rings and depth-of-field scales positioned adjacent to the focus distance markings. The preset ring allowed photographers to pre-select an before shooting, ensuring consistent exposure control during rapid sequences, while the depth-of-field scale—marked with paired f-stop indicators—visually represented the zone of acceptable sharpness for a given focus distance and , aiding in estimation and compositional decisions without external tools. These scales were calibrated for the lens's specific and maximum , providing a tactile and visual reference integral to the manual focus of FD system cameras.

Compatibility Standards

The Canon FD lens mount was designed with backward compatibility in mind, providing full mechanical support for earlier Canon FL lenses when mounted directly on FD camera bodies. FL lenses, which share the same 48 mm inner diameter and 42 mm as the FD mount, can be attached without modification, enabling manual focus and stop-down metering for exposure. However, due to the absence of the FD-specific signal lever on FL lenses, full-aperture metering and automatic exposure modes are not available; metering must be performed stopped-down. Forward compatibility of the FD mount with later Canon systems, such as the EF mount introduced in 1987 for cameras, is inherently limited by differences in and interface design. The FD's 42 mm flange distance is 2 mm shorter than the EF's 44 mm, preventing on EF bodies without an optical that corrects but introduces light loss and potential aberrations. Moreover, the FD mount lacks the electronic data bus and drive mechanisms of the EF system, restricting adapted FD lenses to manual focus and manual aperture control, with no support for in-body or lens metadata communication. The FD mount's open mechanical standard facilitated widespread third-party lens production, allowing independent manufacturers to create compatible optics by adhering to Canon's published specifications for the bayonet flange, aperture levers, and electrical pins. Companies like and , along with Tokina and Tamron, developed extensive FD-mount lens lines during the 1970s and 1980s, including zooms and primes that integrated seamlessly with Canon FD bodies for manual operation and full-aperture metering where applicable. These third-party lenses typically matched the FD's breech-lock or variants, ensuring physical fit and functional compatibility without proprietary restrictions. A key design parameter of the FD mount is its 48 mm throat diameter, which provided sufficient clearance for the rear elements of wide-angle lenses, minimizing and enabling compact optical designs for focal lengths as short as 14 mm without compromising coverage for . This dimension, larger than contemporaries like the mount's 44 mm throat, supported innovative lens architectures, such as retrofocus elements in ultra-wide primes, contributing to the system's versatility for architectural and .

Lens Types and Variants

Standard FD and New FD Lenses

The Canon FD lens mount was introduced in 1971, marking the debut of the original FD lens series, which spanned production from 1970 to 1979 and included 14 initial lenses launched concurrently with the mount. These early FD lenses featured a breech-lock mounting system for secure attachment to compatible camera bodies, with finishes typically in chrome or black paint over metal barrels for durability. Basic multi-coating, often denoted as S.S.C. (Super Spectra Coating), was applied to reduce flare and improve contrast, as seen in examples like the FD 50mm f/1.4 S.S.C. and FD 35mm f/2 S.S.C. In 1979, Canon transitioned to the New FD series, produced until 1989, which refined the original design while maintaining with FD bodies. Key updates included the incorporation of elements in the barrel to reduce without compromising structural integrity, alongside an enhanced version of the S.S.C. coating for superior flare resistance and color rendition. New FD lenses also introduced integrated mounts for lens hoods, simplifying attachment compared to the screw-on hoods of earlier models. Representative examples include the New FD 50mm f/1.8, known for its compact form and sharp performance, and the New FD 35-105mm f/3.5 zoom, offering versatile coverage. The standard FD and New FD lineup encompassed a broad range of , with prime lenses covering focal lengths from 14mm ultrawides to 800mm telephotos, and zoom variants such as the 35-105mm f/3.5 providing everyday utility. Overall, Canon produced more than 100 distinct FD and New FD lenses during this era, forming the core of the system for general applications. Cosmetic evolutions distinguished the generations: original FD lenses retained a more robust metal construction with chrome accents on filter rings for some models, while New FD shifted toward matte black barrels for a lighter, modern aesthetic. rings on both series featured clear engravings, but New FD models often included subtle color coding on depth-of-field scales for quicker reference during shooting.

High-Performance Lenses

The Canon L-series lenses for the FD mount represented the pinnacle of during the late 1970s and 1980s, introduced in 1978 to provide professional photographers with unparalleled image quality through the incorporation of exotic materials and precision manufacturing techniques. These premium lenses were distinguished by a distinctive red ring encircling the barrel, a visual identifier signifying the use of advanced elements such as aspherical surfaces or (calcium fluoride) crystals, which minimized , chromatic , and other optical imperfections for exceptional sharpness and contrast across the frame. Unlike standard FD lenses, which relied on conventional glass elements, the L-series prioritized elite performance for demanding applications like portraiture and telephotography, establishing Canon's reputation for innovation in SLR optics. Key exemplars of the FD L-series include the FD 85mm f/1.2L, released in 1980 as an evolution of the groundbreaking 1976 FD 85mm f/1.2 Aspherical—the world's first mass-produced lens with an aspherical element—which delivered creamy and low-light prowess ideal for portrait work. Another landmark was the FD 300mm f/2.8L, introduced in 1981, which employed elements to achieve superior chromatic correction, enabling high-resolution telephoto imaging with minimal color fringing even at maximum . These designs exemplified the L-series' focus on pushing the boundaries of resolution and aberration control, often outperforming contemporaries in professional field tests for clarity and color fidelity. Advancements in lens coatings further elevated the L-series, with later models adopting Super Spectra Coating (SSC), a multi-layer technology that enhanced light transmission to approximately 98-99% while significantly suppressing ghosting and flare from stray light reflections. This coating, refined from earlier Spectra variants used in standard FD lenses, ensured balanced color rendition and maintained high contrast in challenging lighting conditions, such as backlit scenes. In terms of construction, FD L-series lenses were engineered for durability with all-metal barrels and robust mechanical components, providing a solid feel that supported heavy professional use without compromising precision. Many incorporated internal focusing mechanisms, which kept the lens length constant during operation and preserved balance on camera bodies, contributing to stable handling during extended shoots. This combination of premium materials and thoughtful made the L-series a benchmark for reliability in the FD ecosystem.

Specialized Lenses

The Canon FD macro lenses were engineered for close-up photography, offering high magnification ratios suitable for scientific, product, and nature applications. The FD 50mm f/3.5 Macro lens achieves a 1:2 reproduction ratio (0.5x ) at its minimum focusing distance of 23.2 cm, with aberrations optimized for extreme close-up work, and it supports extension for higher magnifications. The FD 100mm f/4 Macro provides true 1:1 reproduction at 45 cm, delivering sharp detail across the frame when used with compatible like the Bellows FL, enabling life-size imaging without additional accessories. Both lenses feature floating element designs to maintain flat-field performance at close distances and are compatible with Canon's macro accessories, such as extension tubes, for versatile photomacrography setups. Special-purpose FD lenses catered to creative and architectural needs, expanding beyond conventional optics. The FD 55mm f/1.2 Aspherical, with its fast and intentional wide-open softness from spherical aberrations, was favored for portraiture to produce a flattering, dreamy effect while sharpening at smaller apertures for high-contrast definition. For perspective correction, the TS 35mm f/2.8 S.S.C. tilt-shift lens, the world's first such wide-angle for 35mm SLRs, allowed up to 11 mm of shift and 8° of tilt to control and correct converging lines in architecture or product shots, with a minimum focus of 0.3 m. The FD 15mm f/2.8 Fisheye, a full-frame design with a 180° diagonal of view, featured the largest in its class at f/2.8 and built-in color filters (Sky, Y3, O, R) for creative effects in low-light or panoramic compositions, focusing as close as 0.2 m. Teleconverters extended the reach of FD telephoto lenses while preserving optical quality. The Extender FD 1.4x-A, compatible with lenses of 100 focal length or longer, increased magnification by 1.4 times with a one-stop loss, maintaining full-aperture metering on compatible bodies. The Extender FD 2x-A doubled the focal length of primes 300 or longer, resulting in a two-stop light reduction but retaining aperture ring functionality for precise exposure control in wildlife or . Rare variants of FD lenses included attachments and materials phased out for safety or design reasons. Softfront attachments, filter-like diffusers screwed onto the front of standard FD lenses, created intentional softness for ethereal portraits without altering the mount. Certain early FD lenses, such as the 35 mm f/2 S.S.C., incorporated radioactive oxide elements for dispersion control, leading to a characteristic yellowing over time; Canon discontinued thorium use by the late 1970s in favor of safer glass. Some macro lenses integrated L-series aspherical elements for enhanced close-up resolution, though full L-series macros like the 200 mm f/4 appeared in later FD production.

Compatible Camera Bodies

Canon FD Bodies

The Canon FD lens mount was introduced in 1971 alongside the flagship F-1 camera body, marking Canon's shift toward a professional-grade system of 35mm single-lens reflex (SLR) cameras designed for durability and modularity. The F-1, launched in March 1971, featured a robust mechanical construction capable of withstanding 100,000 exposures and operating in temperatures from -30°C to +60°C, with over 180 compatible accessories including interchangeable viewfinders and motor drives. Its modular design allowed professionals to customize the camera for specific needs, such as , and it served as the official camera for the 1976 Montreal Summer Olympics and 1980 Lake Placid Winter Olympics. In 1981, Canon released the New F-1 as an upgraded successor to the original, incorporating advanced electronic controls while retaining the modular architecture. Marketed in September 1981, the New F-1 introduced system AE with shutter speed-priority autoexposure, segmented metering patterns (spot, partial, and center-weighted), and support for 32 interchangeable focusing screens across 13 types, enabling precise exposure compensation of ±2 EV. Like its predecessor, it emphasized professional reliability with attachable power winders and data backs integrated into the F-1 series variants for automated film advance and exposure logging. Canon expanded the FD system to consumer markets with the AE-1 in April 1976, the first mass-produced SLR to incorporate a for shutter speed-priority autoexposure (AE), making advanced metering accessible to amateurs. This model achieved over 1 million units sold within three years, featuring TTL full-aperture metering across ISO 25–3200 and a compact design weighing 590 grams. Building on this success, the A-1 arrived in April 1978 as the pinnacle of the A-series, offering multi-mode automation including the first program AE, alongside shutter-priority, aperture-priority, and flash AE modes, all controlled digitally with a 7-segment LED display. The 1980s saw the introduction of entry-level T-series bodies, such as the (1983) and (1984), aimed at beginners with simplified program AE and compact builds while maintaining FD compatibility. Overall, Canon produced over 20 FD-mount camera models between 1971 and 1984, spanning professional flagships, mid-range automatics, and budget options to cover diverse user needs.

Third-Party and Adapted Bodies

While the Canon FD mount was designed exclusively for Canon's own SLR camera bodies, photographers in the and employed third-party adapters to mount FD lenses on select non-Canon cameras, enabling broader compatibility despite mechanical and optical challenges. These adaptations were particularly common for screw-mount and systems with compatible distances, allowing manual focus and control but often at the expense of full functionality. One early example includes the Canon Lens Mount Converter P, introduced in the mid-1970s, which facilitated the use of M42 screw-mount lenses on FD bodies; the reverse adaptation—mounting FD lenses on M42-equipped bodies like the series—emerged through third-party converters during the same era, though these typically required corrective optics to restore due to the 3.46 mm flange distance difference (FD at 42 mm versus M42 at 45.46 mm). Similarly, adapters for Contax/Yashica-mount cameras such as the FR series (introduced in ) were developed, necessitating optical elements to bridge the approximately 3.5 mm gap (CY at 45.5 mm) and maintain usability for close-range photography. Due to its 42 mm flange distance, FD lenses could be adapted to bodies with shorter distances using simple non-optical spacers, such as certain vintage SLRs like the Alpa Reflex series (produced in the 1950s–1960s with a 37.8 mm flange). Custom adapters also enabled FD lens use on Leica R SLR bodies (flange 47 mm), often incorporating glass elements to correct the 5 mm discrepancy, though these compromised sharpness and were primarily for specialized applications. A primary limitation across these adaptations was the absence of integrated metering, as FD lenses relied on Canon's proprietary stop-down lever and electrical contacts for through-the-lens exposure in native bodies; on third-party cameras, users resorted to manual stop-down metering or handheld exposure meters, restricting automated exposure modes and workflow efficiency.

Autofocus Integration

Autofocus-Capable FD Lenses

In the early 1980s, Canon experimented with autofocus technology for its FD mount lenses ahead of the full transition to the EF system, resulting in a small number of specialized autofocus-capable designs. The first such lens was the New FD 35-70mm f/4 AF, introduced in May 1981 as the world's inaugural autofocus zoom lens for 35mm SLRs. This lens incorporated Canon's proprietary Solid State Triangulation (SST) method, utilizing a dedicated CCD sensor within the lens barrel to measure subject distance passively by analyzing light patterns from two offset windows, enabling vibration-free operation without relying on the camera body for focusing assistance. It featured an independent in-lens motor activated by a button on the lens housing, allowing compatibility with any standard FD-mount camera body, such as the F-1 or A-1 series, though manual focus remained an option. By 1985, Canon released three additional lenses under the AC designation, exclusively designed for the T80 camera body to integrate with its TTL contrast-detection system. These lenses—AC 50mm f/1.8, AC 35-70mm f/3.5-4.5, and AC 75-200mm f/4.5—retained the FD mount but added six electrical contacts for signal transmission between the lens and the T80's linear CCD array, which performed contrast detection via image contrast analysis in the plane. Unlike traditional screw-drive mechanisms, the drive relied on compact in-lens motors powered and controlled electronically by the camera, supporting one-shot and continuous modes with a detection range of EV 4 to 18 at ISO 100. The AC 35-70mm f/3.5-4.5, for instance, employed a 9-element, 8-group optical design with a minimum focus distance of 0.39m, emphasizing compact zoom versatility for the T80's automated features. These FD lenses represented transitional innovations but were produced in limited quantities due to the impending shift to the EF mount. The New FD 35-70mm f/4 , priced at 89,500 yen upon launch, saw low-volume as a proof-of-concept, while the AC series was tied to the short-lived T80 body (marketed April 1985), with production ceasing by 1987 as Canon prioritized the fully electronic EOS system. None incorporated body-mounted couplers or external motors; instead, their self-contained or electrically linked designs highlighted Canon's early efforts to retrofit without overhauling the FD ecosystem.

Challenges and Limitations

The implementation of in the Canon FD system relied on dedicated AC (Autocorrelator) lenses with built-in focus motors integrated into the lens barrel, which significantly increased their physical bulk compared to standard manual-focus FD lenses. These motors, driven by electrical signals from the camera body rather than a fully electronic focus-by-wire mechanism, added mechanical complexity and weight, making the lenses less ergonomic for extended use and limiting their appeal for professional photographers accustomed to the slimmer profiles of traditional FD . This design constraint stemmed from adapting the existing FD mount's mechanical architecture to accommodate AF without a complete overhaul, resulting in no native support for electronic focus control across the broader FD lineup. Compatibility issues further hampered FD autofocus adoption, as the system was restricted to the late-model T80 camera body released in 1985, excluding users of earlier professional bodies like the F-1 series that formed the core of Canon's FD ecosystem. While one AF-capable lens, the FD 35-70mm f/4 AF, offered independent autofocus on other FD bodies via its built-in motor, the three primary AC lenses (50mm f/1.8, 35-70mm f/3.5-4.5, and 75-200mm f/4.5) functioned in AF mode exclusively with the T80 due to their specialized electrical contacts and in-lens motors. This fragmentation meant that the vast majority of existing FD lenses—over 130 models—remained manual-focus only, forcing photographers to invest in a narrow selection of new AF optics or forgo the feature entirely, which alienated loyal FD users and stifled system-wide integration. The FD initiative ultimately faltered in the market, with only four AF lenses produced amid fierce competition from Minolta's integrated A-mount system in the Maxxum 7000, launched in February 1985. The T80's short production run from April 1985 to June 1986 and its reputation for slow, contrast-detection AF—often taking about one second per focus with frequent hunting in low-contrast or dim conditions—contributed to poor sales, as it was perceived as a transitional product rather than a competitive offering. Priced at around $520 (equivalent to roughly $1,250 today), the camera and its limited lens ecosystem failed to capture significant , prompting Canon to abandon further FD development. These shortcomings informed Canon's pivot to the EF mount in the 1987 EOS system, where lessons from the FD AF's mechanical and compatibility limitations drove a fully electronic, flange-distance-optimized design that enabled in-body or in-lens AF motors without dedicated couplers or mount modifications. By discarding with FD, Canon achieved seamless integration of advanced AF across all new lenses and bodies, marking a decisive shift away from the constraints of the screw-drive and electrical-contact hybrid approach.

Modern Usage and Adapters

Adapting FD Lenses to Digital Systems

The Canon FD mount's flange focal distance of 42 mm provides a significant advantage for adaptation to modern mirrorless systems, as it exceeds the distances of popular digital mounts such as E at 18 mm, Nikon Z at 16 mm, and Canon RF at 20 mm. This allows for the use of simple, non-optical adapters that maintain without compromising the lens's optical design. Such adapters typically consist of a metal shim to bridge the gap, enabling FD lenses to achieve precise registration on these shorter-flange bodies. Popular adapters include those from Fotodiox, which offer durable, manual-focus options for FD to , Nikon Z, and Canon RF mounts, often at affordable prices under $50. Metabones provides higher-end solutions, such as the Canon FD to T Adapter and the Speed Booster ULTRA 0.71x, the latter incorporating optical elements to correct for mismatches while increasing light transmission and reducing the effective by 29%. These adapters are manual-focus only, lacking electronic communication for control or . Adapting FD lenses to digital mirrorless cameras leverages high-resolution sensors to highlight the inherent sharpness of these vintage optics, particularly in the L-series primes like the FD 50mm f/1.4 and 85mm f/1.2, which deliver excellent center resolution and contrast on full-frame bodies. Modern sensors, with pixel densities exceeding 24 megapixels, reveal details previously masked by film grain, while in-body image stabilization and focus peaking aids enhance usability for manual focusing. This revival has made FD lenses viable for portrait and landscape work, offering shallower depth of field and improved dynamic range compared to their original film-era performance. Since the introduction of the Sony A7 series in 2013, there has been a notable surge in the adaptation of FD lenses to digital systems, driven by the accessibility of full-frame mirrorless cameras and the growing interest in vintage optics for their characterful rendering. By the mid-2010s, photographers increasingly paired FD glass with bodies for its compatibility and cost-effectiveness. This trend continues, supported by communities testing FD performance on high-megapixel sensors like those in the Sony A7R IV and Nikon Z7 II.

Reverse Adaptation and Accessories

Reverse adaptation allows non-FD lenses, particularly vintage screw-mount and designs, to be mounted on Canon FD camera bodies, expanding compatibility for photographers seeking to utilize older . Adapters such as M42-to-FD converters enable M42 screw lenses from brands like , , and to attach to FD-mount SLRs, preserving due to the M42 of 45.46 mm exceeding the FD's 42 mm. These adapters are typically manual, requiring aperture and focus adjustments on the lens itself, with no electronic communication between lens and body. Similarly, to Canon FD adapters facilitate the use of Nikon AI and AI-S lenses on FD cameras, leveraging the Nikon F flange distance of 46.5 mm to maintain focus range without corrective . These converters, often produced by third-party manufacturers, support manual operation exclusively and are valued for integrating high-quality vintage Nikkors into FD systems for creative shooting. However, reverse adaptations generally introduce limitations, including potential minor optical quality degradation from imprecise adapter tolerances and the complete absence of or automatic exposure features inherent to FD-native lenses. Canon FD-specific accessories enhance versatility, particularly for close-up and specialized photography. Extension tubes, such as the 12 mm and 25 mm models, insert between the lens and body to reduce minimum focus distance, enabling macro reproduction ratios when paired with standard FD lenses. These tubes maintain full aperture control and metering compatibility on FD bodies. For more extreme magnification, bellows units like the Canon Auto Bellows and M provide variable extension from 33 mm to 145 mm, supporting reversible lens mounting for high-ratio macro work on FD cameras. The series benefits from interchangeable screens, which can be user-swapped to suit different focusing needs, such as split-image microprism for portraits or plain matte for . These screens, including types like the SI and PC, install via the camera's top access and couple with the meter's selective area for precise exposure evaluation.

Collectibility and Market Value

The Canon FD lens mount has experienced a notable revival among filmmakers and videographers, who value its manual focus capabilities and characteristic rendering for achieving a cinematic aesthetic on a budget. Lenses like the FD 50mm f/1.2 have been particularly popular for , often modified or rehoused into cine-style optics to provide affordable alternatives to modern high-end primes, with many enthusiasts praising their smooth and flare when adapted to mirrorless cameras. This resurgence stems from the lenses' accessibility, as standard models can be sourced for under $100, making them an entry point for manual focusing workflows in digital video setups. Market values for FD lenses vary significantly by type and condition, reflecting their growing collectibility. L-series primes, such as the 50mm f/1.2 L and 85mm f/1.2 L, typically range from $500 to $2,000 in excellent condition as of late , driven by demand for their optical excellence and scarcity compared to non-L variants. Standard lenses like the 50mm f/1.8 or f/1.4 often sell for less than $100, appealing to budget-conscious users, while rarity and command premiums— for instance, pristine examples of specialized models like the 24mm f/1.4 Aspherical can exceed $10,000 due to limited production runs. Overall, prices have trended upward since the early 2020s, fueled by the pandemic-era interest in vintage optics and continued demand in as of . Enthusiast communities have amplified this demand through online forums and content, where reviews and adaptation tutorials highlight FD lenses' versatility for both stills and video, creating a feedback loop of visibility and acquisition. Platforms like DPReview and 's cinematography subreddits frequently discuss their value, with users noting how incomplete mainstream documentation—such as gaps in coverage of applications—spurs independent exploration and activity. Preservation efforts are crucial to maintaining FD gear's usability, as Canon provides no official support for these discontinued lenses, leaving maintenance to third-party specialists. Services from technicians like Ken Oikawa and companies such as Duclos Lenses or P+S Technik offer repairs, declicking, and rehousing, ensuring that even decades-old remain functional for contemporary use and sustaining their long-term collectible appeal.

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