Data sheet: Canon FD 135 mm f/3.5 S.C.

Pekka Buttler, 11/2022 (Updated 08/2023)


The table below summarises the lens’ key specifications (measurements based on pictured sample):

Brand:CanonLens nameFD 135 mm 1:3.5 S.C.
Focal length(s)1135 mmAngle-of-view218°
Maximum Aperturef/3.5In Production1973–1979
Lens mountCanon FDSubfamily (if applicable)FD
Length385,5 mmDiameter465,6 mm
Filter ring diameter55 mmWeight466 grams
Lens element count4Lens group count3
Aperture blades (S/R/C)58 SFocus throw260 °
Minimum focusing distance≈140 cmsMaximum magnification1:8.6
Has manual aperture ringYESHas Manual focus ringYES

Further notes:
• There are two sub-variants of the Canon FD 135 mm f/3.5 S.C. – typically referred to as I and II-versions. The II-version has 6 aperture blades instead of 8, a broader focus ring, and is a tad lighter.
• This lens does not feature a built-in lens hood, but instead offers a bayonet for attaching a lens hood (the correct lens hood is the Canon BT-55).

History of Canon FD lenses

Canon is undoubtedly one of the great names in 35 mm SLR photography. Ever since the 1959 introduction of the Canonflex – Canon’s first interchangeable lens SLR – Canon has constantly focused on being at the forefront of Camera innovation. Often this has necessitated taking stock and redesigning both cameras, lenses and lens mounts. Unlike its arch-rival Nikon, Canon has not tried to integrate all novel features in the same lens mount, but has instead repeatedly launched new, modified mounts to facilitate new features, while still often (but not always) managing to maintain a decent degree of backwards compatibility.

In short (a longer version is here), the development of Canon SLR mounts can be traced as follows:
• 1959–1963: R-mount 6. Canon’s first SLR lens mount. Breech lock-type mount with aperture automation (camera is able to stop down lens for taking the shot.
• 1964–1969: FL-mount. Breech-lock type mount, physically similar mount as Canon R-mount, but camera-to-lens communication linkages somewhat different. Cannot communicate selected aperture to body (stop-down-metering only).
• 1970–1978: FD-mount. Breech-lock mount. FD lenses compatible with FL-cameras and vice versa. Manual focus lenses that communicate aperture information to camera, hence opening the door for automatic exposure (both shutter priority and aperture priority possible)
• 1979–1986: new FD-mount (a.k.a. FDn). Bayonet mount, backwards compatible with FL and FD mounts. Otherwise, as FD mount.
• 1987–today: EF-mount. Electronically controlled autofocus lenses that use an internal focusing motor. Compatible with previous mount lenses only using an adapter with optics.

The era of the Canon FD mount can be characterised by a gradual shift towards the ever-increasing use of plastics and lighter materials (see some more in the JAPB article on the Canon FL, FD and FDn mounts). In the chronology of this gradual shift:
• ‘Chrome nose’ FD lenses (1971–1973) are solid metal (often brass) and glass.
• Black nose FD lenses (1973–1979) are also metal and glass, but especially later, Mk II and III variants have shifted to using less metals and lighter metals.
• FDn lenses (1979–1987) typically make extensive use of plastics.

Another noteworthy point is related to the S.C. and S.S.C. acronyms found on some FD lens’ name rings: S.C. stands for “spectra coating”, while S.S.C. stands for “super spectra coating”. Both are proprietary marketing names for Canon’s optical coating technology. In theory S.S.C. is always a superior form of coating, but that does not mean that one should always try to get an S.S.C. lens, because:
• S.C. and S.S.C. are first and foremost marketing terms, that were not used on early Canon FD lenses, nor on most FDn lenses. Hence, a FDn lens is certain to have at least the level of coating of its direct (FD) predecessor, even though the S.S.(C.) marking is missing from the lens.
• Coating technology developed a lot during the 70s and 80s. A late S.C. coating is liable to be better optimised than an early S.S.C. coating.


Canon has a long history of manufacturing f/3.5 135 mm lenses, that can be summarised (based on data from the Canon camera museum) as:

• R 135 mm f/3.5 (I) (1959–1961), 4 elements in 3 groups, 48 mm filter, 10 blades, 370 grams
• R 135 mm f/2.5 (1961–1966), 4 elements in 3 groups, 48 mm filter, 10 blades, 350 grams
• FL 135 mm f/3.5 (1966–1970), 4 elements in 3 groups, 48 mm filter, 8 blades, 434 grams
• FD 135 mm f/3.5 chrome nose (1970–1973), 4 elements in 3 groups, 55 mm filter, 8 blades, 480 grams
• FD 135 mm f/3.5 S.C. (I) (1973–1976), 4 elements in 3 groups, 55 mm filter, 8 blades, 465 grams [this pictured sample]
• FD 135 mm f/3.5 S.C. (II) (1976–1979), 4 elements in 3 groups, 55 mm filter, 6 blades, 385 grams
• FDn 135 mm f/3.5 (1979–1987), 4 elements in 4 groups, 52 mm filter, 6 blades, 325 grams [data sheet]


This lens cannot be used natively on any current SLR or dSLRs. To use it in its native environment, you will need a Canon FD or FL-mount film body.

Thanks to being a fully manual lens (manual aperture, manual focus), the lens can be adapted to all mirrorless cameras using a suitable adapter. However, for the adapter to allow the lens to stop down, you will need an adapter that can be set to engage the FD lens’ aperture control lever. Personally, this is my biggest gripe with the FD-mounts as this leads to what I refer to as the four-ring problem:

Rings galore – Sony a7R; K&F FD-NEX adapter; Canon FD 135 mm f/3.5 chrome nose.
[1] Activation ring for aperture control
[2] Locking ring for breech-lock mount
[3] Aperture ring
[4] Focus ring
Note, that especially the first three rings are very close together.

Moreover, a large range of special adapters (helicoid adapters, tilt/shift adapters, speed boosters) for using Canon FD lenses on most mirrorless systems are available.

Using Canon FD lenses on dSLRs is a possibility, but is not problem free. Thanks to the relatively short flange focal distance of the Canon FD mount (at 42,0 mm, clearly shorter than that of any full-frame dSLR mount), any adapter will necessitate some optics to achieve infinity focus.


1 Focal length is (unless stated otherwise) given in absolute terms, and not in Full-frame equivalent. For an understanding of whether the lens is wide/tele, see ‘Angle-of-view’.

2 Picture angle is given in degrees and concerns the diagonal picture angle. Rule of thumb:
> 90 ° ==> Ultra-wide-angle
70–90 ° ==> Wide-angle
50–70 ° ==> Moderate wide-angle
40–50 ° ==> ‘Standard’ or ‘normal’ lens
20–40 ° ==> Short tele lens
10-20 ° ==> Tele lens
5-10 ° ==> Long tele lens
< 5 ° ==> Ultra-tele lens

3 Length is given from the mount flange to the front of lens at infinity.

4 Diameter excludes protrusions such as rabbit ears or stop-down levers.

5 S=straight; R=rounded; C=(almost)circular at all apertures.

6 The Canon-R mount should possibly be renamed to (or referred to) as the Canonflex mount to avoid confusion with the modern mirrorless mount that is sometimes also referred to as the Canon R mount.

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