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Kino Precision Kiron 70-210mm F/4 MC Macro Type 2

Telephoto zoom lens • Film era • Discontinued

Kino Precision Kiron 70-210mm F/4 MC Macro Type 2

Abbreviations

MC Multi-layer anti-reflection coating is applied to the surfaces of lens elements. This anti-reflection coating increases light transmission, eliminates flare and ghosting, and maintains color consistence among all lens models.
MACRO A lens with better close-up focusing capabilities in comparison with traditional lenses. Not a macro lens though.

Model history (2)

Kino Precision Kiron 70-210mm F/4 MC Macro Type 1Push/pullA13 - 91.50m⌀62 1982 
Kino Precision Kiron 70-210mm F/4 MC Macro Type 2Push/pullA13 - 91.50m⌀62 1983 

Features highlight

Constant
F/4
MF
Auto
8 blades
PUSH/PULL
⌀62
filters

Specification

Production details:
Announced:1983
Production status: Discontinued
Original name:KINO PRECISION KIRON 70-210mm f/4 MACRO 1:4 MC
System:-
Optical design:
Focal length range:70mm - 210mm [3X zoom ratio]
Speed range:F/4 across the focal length range
Maximum format:35mm full frame
Mount and Flange focal distance:Canon FD [42mm]
Contax/Yashica [45.5mm]
Konica AR [40.5mm]
Minolta SR [43.5mm]
Nikon F [46.5mm]
Olympus OM [46mm]
Pentax K [45.5mm]
Diagonal angle of view:34.3° @ 70mm - 11.8° @ 210mm
Lens construction:13 elements in 9 groups
On Nikon D APS-C [1.53x] cameras:
35mm equivalent focal length range:107.1mm - 321.3mm (in terms of field of view)
35mm equivalent speed range:F/6.1 (in terms of depth of field)
Diagonal angle of view:22.8° @ 70mm - 7.7° @ 210mm
On Pentax K APS-C [1.53x] cameras:
35mm equivalent focal length range:107.1mm - 321.3mm (in terms of field of view)
35mm equivalent speed range:F/6.1 (in terms of depth of field)
Diagonal angle of view:22.8° @ 70mm - 7.7° @ 210mm
Diaphragm mechanism:
Diaphragm type:Automatic
Aperture control:Aperture ring (with or without Auto Exposure setting)
Number of blades:8 (eight)
Zooming:
Zoom mechanism:Manual
Zoom control:Combined zoom/focusing ring
Zoom type:Push/pull (210mm → 70mm)
Zooming method:Extends while zooming
Focusing:
Closest focusing distance:1.5m
1.15m (in MACRO mode)
Magnification ratio:1:4 at the closest focusing distance @ 210mm (in MACRO mode)
Focusing modes:Manual focus only
Manual focus control:Combined zoom/focusing ring
Physical characteristics:
Weight:868g (mount not specified)
Maximum diameter x Length:⌀77×153mm (mount not specified)
Accessories:
Filters:Screw-type 62mm
Lens hood:<No data>
Teleconverters:<No data>
Source of data:
Manufacturer's technical data.

Manufacturer description #1

Focustop. It makes two things perfectly clear.

It is with great pleasure, and not a shred of modesty, that we at Kiron announce our latest breakthrough in 35mm zoom technology.

Our new 70-210mm f4 zoom with the revolutionary Focustop mechanism. Another professional feature on yet another very affordable lens.

What Focustop allows you to do is preset any two focus points between 16 feet and infinity. The advantages of this for a serious, motor-drive-equipped action photographer like yourself are thrilling to contemplate.

Contemplate, for example, a potential base-stealing situation at a ball game. Set one focus point on the pitcher, the other on second base. Now you can catch both the delivery and the slide into second by simply racking between the two locked-in focus positions. No more fumbling to get the focus right while the play becomes history.

Or preset just one focus distance, say the finish line at a horse race, then feel free to shoot some candids of the crowd. When your nag finally comes in, just rack to your preset position and shoot. You can even use Focustop indoors or in low light to preset your maximum flash distance and avoid underexposure.

Focustop is one terrific idea. And just one of several unique features on the new 70-210mm.

There's our exclusive Zoomlock' switch, for example, which locks the lens at the focal length you choose to make focusing and camera bracing easier.

Then there's the non-rotating front barrel, to keep your special effects filters properly aligned. An 8-blade iris (a rarity on 35mm lenses) for consistently accurate exposures. And continuous one-touch macro focusing to 1/4 life size.

Manufacturer description #2

How to fix a zoom.

There are two things in which we, at Kiron, take shameless pride.

Knowing what our customers want.

And giving it to them.

Our latest case in point: the new Kiron 70-210mm f4 Macro Focusing Zoom.

Here, for the first time in the history of zooming, is the range, flexibility and convenience of a one-touch zoom plus the advantages of a fixed focal length lens.

You'll notice that on the zoom/focus ring where other lenses have nothing, the 70-210mm has a switch. It's an exclusive Kiron feature with the fitting name of Zoomlock. When activated, it locks the lens at whatever focal length you've set.

There are advantages to this.

People who aren't completely comfortable with one-touch zooms can first lock in the desired focal length, then focus unfettered.

Camera shake, and the heartbreak of unsharp pictures, are virtually eliminated. Because the 70-210mm in the locked position can be gripped and pulled into the body for solid bracing.

Or say you want to freeze some action at a particular point. Just set the focal length for your end position, lock the lens, then track the subject while you focus on focusing.

And if you're shooting with the lens locked and pointing straight down you can even use a motor drive. The 70-210mm will be invulnerable to the combined forces of gravity and vibration.

In short, the Kiron 70-210mm with Zoomlock affords you even more versatility than one-touch zooms are already famous for. And at a price that's more than competitive with the camera makers' less-talented zooms.

Which would make this a dandy place to end our story if not for one other feature we're dying to tell you about. The non-rotating front barrel, until now the exclusive property of zoom lenses costing twice as much.

What this means, if you're a frequent user of polarizing filters, masks and the like, is that you don't have to re-orient your filter every time you focus, as you would with a rotating barrel.

Needless to say, the 70-210mm, like every Kiron Zoom, is designed to fit almost all popular SLR bodies. It also incorporates the same uncompromising manufacturing and finishing procedures that make a Kiron lens worthy of the name.

From the Amateur Photographer magazine (January 1984)

THE interesting features of this one-touch unit are the locking mechanism on the broad, rubberised zooming/focusing ring and focustop. This means you can select any focal length in the range, and lock the lens at this setting by merely pulling the 'Zoomlock' switch downwards one click stop. To release, you just thumb it upwards again.

The focusing is not affected by the lock and is a standard 1.5m to infinity twisting centre to left. Macro is shown as a red dot beyond the 1.5m setting, which aligns with the white index line on the barrel. Now you just engage focal length required and focus by moving camera position in and out for optimum sharpness.

Focustop is an innovation by Kiron that allows you to pre-set focusing distances between 5m and infinity, so the lens can quickly be reset and focused. To do this, one or both chrome buttons on two knurled rings at the base of the zoom/focus control can be moved to pre-selected positions to limit the focus area.

The main benefit appears to be to prevent focus drift as you zoom, so the new Kiron can be locked at focal length and focus - the press release tells us there are 35 different focusing distances at which the lens can be racked.

Alternatively, if you wish to limit focusing distances between 10 and 15m, you can do so easily by setting the lower chrome button at 10 and the upper one at 15m (30 to 50ft). You can then shoot away at a focal length you have selected and locked.

The rest of the lens is fairly standard. There are lugs on the front for attaching an optional lens hood, and focal lengths are marked at 70, 85, 100, 135 and 210mm on the lens barrel, with the zoom/focus control being pulled inwards through the range. Aperture stops are marked in full stops only, from f/4 to f/22, centre to left on a ring that moves very easily next to the lens mount on the camera.

Viewfinder image brightness is fairly good and zooming plus focusing is smooth and trouble-free. This is a fairly hefty lens (868g), which makes a camera front-heavy when out at the 70mm end of the focal range, but it can be used without any problems hand-held.

From the Camera Choice magazine (April 1984)

THE highly regarded Kiron range of lenses have been with us for three years now. In that time they have introduced new focal lengths and new features.

They have also added two new words to the photographic vocabulary, Zoomlock and Focustop. Both of which feature on this lens.

Zoomlock, the first of the two to be introduced, consists of a small switch on the focusing/ zooming control. When this is pulled back the sliding action is locked in position so that the lens becomes, in effect, a fixed focal length model. But that focal length can be anything that the photographer wants - just so long as it suits the subject he is shooting at that time.

This proves useful when a particular type of shot is being repeated or when the lens is being pointed straight down, for instance in copying, when the whole zoom/focus assembly would otherwise be likely to "creep" down, changing the original set-up.

BRAND NEW

Focustop is brand new and just as useful. This allows two extremes of focus to be set and locked into position. In front of the focusing scale are two rings, each of these has a small silvered button which, when pressed, allows the whole ring to turn. The button is then lined up with any focusing distance on the scale between 5m and infinity and released.

Thereafter whenever the main focusing ring is turned it will stop at the pre-set position.

The use of Focustop can best be described when a tennis match is used as an illustration. Say the photographer were behind the player serving. He would focus on the server and set one of the stops on that position. He would then focus on the player at the far end and lock that distance onto the scale. Then he could switch from end to end with a flick of the wrist, certain that he would have sharp focus without having to turn and re-turn seeking a sharp image in the viewfinder. Most useful and one of those ideas that should have been thought of years ago.

In other respects the lay-out of the lens is conventional. The focus/zoom ring is large and well patterned to give a good grip, it has a positive yet light action that responds well under hard use.

Besides the two extreme focal lengths positions are marked at 85, 100 and 135mm. Beside the white line which zeros the focusing is a curved red index for infra-red focus, for use when using one of those films.

The focusing scale goes right down from infinity to the macro section in a single turn when repro ratios of 1:4 (quarter life-size) can be formed on the negative.

Another useful design feature is the non-rotating front element. So however much the zooming and focusing positions are adjusted the alignment of any mounted filters won't change. So if something like a graduated Cokin should be fitted there will be no need to keep rotating it for correct orientation.

Among focal lengths of zooms this, or something very close, is the 'top of the pops' with photographers. The Kiron not only offers superb results, which is what optics are all about, but also the two unique features of Zoomlock and Focustop which are easily used, needed by many photographers and, at times, indispensable. All in all a first class lens that should be the first choice of many photographers.

From the Popular Photography magazine (July 1984)

The 70-210-mm Kiron f/4 is a true zoon lens that has both Zoomlock and Focuslock. The former permits you to pick any marked or in-between focal length and lock it - an asset when you are trying to maintain a specific image size at a given focusing distance.

Focuslock allows you to prelimit the focusing for the range in which you expect action to take place, as in sports photography. Distances that can be preset include infinity, 100, 50, 30, and 23 ft., and the 1:4 macro setting. The focusing range can be set between any two of these by using two rings just to the rear of the focus/zoom collar. The forward ring sets the far distance, and the ring in back of it sets the close distance. Let me give you just one example of how these controls might be used.

At a horse race, you'd like to get one shot with the racers 50 feet away and approaching the finish line; another with the winner crossing the line, 30 feet away. You set the far ring to 50 feet, and the near one to 30. Turn the focusing collar to the left, and it will stop at 50 feet; turn it to the right, and it will stop at 30.

The Focuslock also serves to lock the focus at any one of the above-mentioned settings. Just set both rings to the same distance. I've found this valuable for close-up work with the camera on a tripod. Once the working distance is found for 1:4 magnification at the 210-mm focal length, moving the collar back and forth gives a continous range of magnifications down to 1:12 at the 70-mm focal length, without having the move and reposition the tripod. To disengage the Focuslock, set the far ring at infinity and the near ring to "Macro."

The 70-210-mm Kiron f/4 focuses full range at any focal length. There is no separate, cumbersome macro setting. The lens focuses continuously to all distances, from infinity down to a marked five ft. (1.5 m) and beyond to the 3.9-ft. (1.15-m) macro setting. At the 210-mm focal length, macro magnification is 1:4.

The lens weighs 868 g (30 oz.) and is approximately 153 mm (6 in.) long. Filter size is 62-mm.

From the editor

Version with ZOOMLOCK switch for locking-in any desired focal length AND Focustop Control for presetting any desired focusing distance range.

Notes

  • Independent-brand lenses were made for 35mm film SLR cameras by companies that competed with the camera manufacturers. Some came from factories that made lenses under their own brand names (Angenieux, Kiron, Sigma, Tamron, Tokina). Many others were national and international marketing organizations (Kalimar, Panagor, Rokunar, Soligor, Starblitz) that bought lenses from anonymous manufacturers. One firm — Vivitar — actually designed its own lenses and accessories, which were then subcontracted to manufacturing firms. Still others were private labels, sold only by specific photo specialty shops (Cambron, Quantaray, Spiratone).

Lenses with similar focal length range

Sorted by manufacturer name

Canon FD mount (38)
Canon FDn 70-210mm F/4Push/pullA12 - 91.20m⌀58 1980 
Canon FDn 75-200mm F/4.5Push/pullA11 - 81.80m⌀52 1984 
Kino Precision Kiron 70-210mm F/4.5 MC MacroPush/pullA12 - 91.30m⌀55 1985 
Kino Precision Kiron 70-210mm F/4 MC Macro Type 1Push/pullA13 - 91.50m⌀62 1982 
P. Angenieux 70-210mm F/3.5A15 - 110.86m⌀62 1982 
Quantaray 75-200mm F/4.5 Auto MC MacroPush/pullA12 - 92.00m⌀55 1981 
Sigma-XQ MF 70-230mm F/4.5A13 - 102.00m⌀62 1975 
Sigma MF 70-210mm F/4-5.6 UC-II ZENA13 - 91.20m⌀55 1995 
Sigma MF 70-210mm F/4-5.6 UC ZENPush/pullA13 - 91.20m⌀52 1989 
Sigma MF 70-210mm F/4-5.6 APO UC ZENPush/pullA14 - 111.20m⌀52 1992 
Sigma MF 75-200mm F/2.8-3.5 IIIPush/pull
aka Quantaray 75-200mm F/2.8-3.5 MC		A13 - 101.20m⌀67 1985 
Sigma MF 75-210mm F/3.5-4.5 IIIPush/pullA11 - 81.50m⌀52 1985 
Sigma MF 70-210mm F/4.5 IIPush/pull
aka Quantaray 70-210mm F/4.5 MC		A12 - 91.00m⌀52 1983 
Sigma MF 70-210mm F/3.5-4.5 APOPush/pullA12 - 91.50m⌀52 1986 
Sigma MF 70-210mm F/4-5.6Push/pullA12 - 91.50m⌀52 1987 
Sigma MF 75-200mm F/3.8Push/pullA12 - 91.20m⌀55 1987 
Sigma MF 70-230mm F/4.5Push/pullA13 - 102.00m⌀62
Soligor C/D 70-222mm F/3.5 MC Macro (s/n 3xxxxxx)Push/pullA13 - 91.80m⌀67
Soligor C/D 70-210mm F/3.5 MC Macro (s/n 3xxxxxxx)A14 - 92.00m⌀62
Soligor C/D 70-210mm F/3.5 [MC] (s/n 1xxxxxxx)A12 - 91.50m⌀67
Soligor C/D 70-220mm F/3.5 [MC] (s/n 1xxxxxxx)Push/pull
aka Spiratone 70-220mm F/3.5 Pluracoat Macro		A15 - 121.50m⌀72
Soligor 75-205mm F/3.5 Auto Macro (s/n 9xxxxxx)A? - ?2.00m⌀62
Soligor C/D 78-210mm F/3.5 (s/n 4xxxxxx)Push/pullA? - ?2.00m⌀62
RMC Tokina 70-210mm F/3.5Push/pullA14 - 101.40m⌀62 1980 
Tokina SD 70-210mm F/4-5.6Push/pullA12 - 81.30m⌀52 1985 
Tokina 70-210mm F/4.5-5.6Push/pullA12 - 81.10m⌀49
Vivitar Series 1 70-210mm F/3.5 Auto [VMC] Macro [I] (s/n 22xxxxxx)Push/pullA15 - 102.00m⌀67 1973 
Vivitar Series 1 70-210mm F/2.8-4 Q-Dos VMC Macro [III] (s/n 09xxxxxx)Push/pullA14 - 111.10m⌀58 1991 
Vivitar Series 1 70-210mm F/2.8-4 VMC Macro [I] (s/n 28xxxxxx)Push/pullA14 - 100.80m⌀62 1984 
Vivitar Series 1 70-210mm F/3.5 VMC Macro [II] (s/n 37xxxxxx)Push/pullA14 - 101.20m⌀62 1978 
Vivitar Series 1 70-210mm F/2.8-4 VMC Macro [II] (s/n 09xxxxxx)Push/pullA14 - 111.10m⌀58 1987 
Vivitar 75-205mm F/3.8 MC Macro (s/n 22xxxxxx)Push/pullA12 - 81.20m⌀62 1979 
Vivitar 75-205mm F/3.5-4.5 MC Macro (s/n 37xxxxxx)Push/pullA13 - 91.00m⌀55 1982 
Vivitar 70-210mm F/4.5 MC Macro (s/n 77xxxxxx)Push/pullA12 - 91.60m⌀52 1982 
Vivitar 70-210mm F/4.5-5.6 MC MacroPush/pullA12 - 81.50m⌀52 1986 
Vivitar 75-200mm F/4.5 MC Macro (s/n 42xxxxxx)Push/pullA12 - 91.50m⌀55 1986 
Vivitar 75-205mm F/3.8 Auto Close Focusing (s/n 22xxxxxx)A15 - 102.00m⌀58 1976 
Leonar 70-210mm F/3.8 MC MacroPush/pullA12 - ?1.50m⌀58
Pentax K mount (42)
Auto Chinon 70-210mm F/3.8 MCPush/pullA12 - 91.20m⌀58
Kino Precision Kiron 70-210mm F/4.5 MC MacroPush/pullA12 - 91.30m⌀55 1985 
Kino Precision Kiron 70-210mm F/4 MC Macro Type 1Push/pullA13 - 91.50m⌀62 1982 
P. Angenieux 70-210mm F/3.5A15 - 110.86m⌀62 1982 
smc Pentax-A 70-210mm F/4Push/pullA13 - 101.20m⌀58 1983 
Pentax-A 70-200mm F/4Push/pullA11 - 90.70m⌀58 1989 
Quantaray 75-200mm F/4.5 Auto MC MacroPush/pullA12 - 92.00m⌀55 1981 
Ricoh Rikenon 70-210mm F/3.9 MacroPush/pullA12 - 91.20m⌀58
Sigma-XQ MF 70-230mm F/4.5A13 - 102.00m⌀62 1975 
Sigma MF 70-210mm F/4-5.6 UC-II ZENA13 - 91.20m⌀55 1995 
Sigma MF 70-210mm F/4-5.6 UC ZENPush/pullA13 - 91.20m⌀52 1989 
Sigma MF 70-210mm F/4-5.6 APO UC ZENPush/pullA14 - 111.20m⌀52 1992 
Sigma MF 75-200mm F/2.8-3.5 IIIPush/pull
aka Quantaray 75-200mm F/2.8-3.5 MC		A13 - 101.20m⌀67 1985 
Sigma MF 75-210mm F/3.5-4.5 IIIPush/pullA11 - 81.50m⌀52 1985 
Sigma MF 70-210mm F/4.5 IIPush/pull
aka Quantaray 70-210mm F/4.5 MC		A12 - 91.00m⌀52 1983 
Sigma MF 70-210mm F/3.5-4.5 APOPush/pullA12 - 91.50m⌀52 1986 
Sigma MF 70-210mm F/4-5.6Push/pullA12 - 91.50m⌀52 1987 
Sigma MF 75-200mm F/3.8Push/pullA12 - 91.20m⌀55 1987 
Sigma MF 70-230mm F/4.5Push/pullA13 - 102.00m⌀62
Soligor C/D 70-222mm F/3.5 MC Macro (s/n 3xxxxxx)Push/pullA13 - 91.80m⌀67
Soligor C/D 70-210mm F/3.5 MC Macro (s/n 3xxxxxxx)A14 - 92.00m⌀62
Soligor C/D 70-210mm F/3.5 [MC] (s/n 1xxxxxxx)A12 - 91.50m⌀67
Soligor C/D 70-220mm F/3.5 [MC] (s/n 1xxxxxxx)Push/pull
aka Spiratone 70-220mm F/3.5 Pluracoat Macro		A15 - 121.50m⌀72
Soligor 75-205mm F/3.5 Auto Macro (s/n 9xxxxxx)A? - ?2.00m⌀62
Soligor C/D 78-210mm F/3.5 (s/n 4xxxxxx)Push/pullA? - ?2.00m⌀62
Takumar-A Zoom 70-200mm F/4 MacroPush/pullA11 - 90.70m⌀58 1989 
Takumar-A Zoom 70-210mm F/4.5-5.6Push/pullA10 - 71.10m⌀52
RMC Tokina 70-210mm F/3.5Push/pullA14 - 101.40m⌀62 1980 
Tokina SD 70-210mm F/4-5.6Push/pullA12 - 81.30m⌀52 1985 
Tokina 70-210mm F/4.5-5.6Push/pullA12 - 81.10m⌀49
Vivitar Series 1 70-210mm F/3.5 Auto [VMC] Macro [I] (s/n 22xxxxxx)Push/pullA15 - 102.00m⌀67 1973 
Vivitar Series 1 70-210mm F/2.8-4 Q-Dos VMC Macro [III] (s/n 09xxxxxx)Push/pullA14 - 111.10m⌀58 1991 
Vivitar Series 1 70-210mm F/2.8-4 VMC Macro [I] (s/n 28xxxxxx)Push/pullA14 - 100.80m⌀62 1984 
Vivitar Series 1 70-210mm F/3.5 VMC Macro [II] (s/n 37xxxxxx)Push/pullA14 - 101.20m⌀62 1978 
Vivitar Series 1 70-210mm F/2.8-4 VMC Macro [II] (s/n 09xxxxxx)Push/pullA14 - 111.10m⌀58 1987 
Vivitar 75-205mm F/3.8 MC Macro (s/n 22xxxxxx)Push/pullA12 - 81.20m⌀62 1979 
Vivitar 75-205mm F/3.5-4.5 MC Macro (s/n 37xxxxxx)Push/pullA13 - 91.00m⌀55 1982 
Vivitar 70-210mm F/4.5 MC Macro (s/n 77xxxxxx)Push/pullA12 - 91.60m⌀52 1982 
Vivitar 70-210mm F/4.5-5.6 MC MacroPush/pullA12 - 81.50m⌀52 1986 
Vivitar 75-200mm F/4.5 MC Macro (s/n 42xxxxxx)Push/pullA12 - 91.50m⌀55 1986 
Vivitar 75-205mm F/3.8 Auto Close Focusing (s/n 22xxxxxx)A15 - 102.00m⌀58 1976 
Leonar 70-210mm F/3.8 MC MacroPush/pullA12 - ?1.50m⌀58
Contax/Yashica mount (38)
Kino Precision Kiron 70-210mm F/4.5 MC MacroPush/pullA12 - 91.30m⌀55 1985 
Kino Precision Kiron 70-210mm F/4 MC Macro Type 1Push/pullA13 - 91.50m⌀62 1982 
P. Angenieux 70-210mm F/3.5A15 - 110.86m⌀62 1982 
Sigma-XQ MF 70-230mm F/4.5A13 - 102.00m⌀62 1975 
Sigma MF 70-210mm F/4-5.6 UC-II ZENA13 - 91.20m⌀55 1995 
Sigma MF 70-210mm F/4-5.6 UC ZENPush/pullA13 - 91.20m⌀52 1989 
Sigma MF 70-210mm F/4-5.6 APO UC ZENPush/pullA14 - 111.20m⌀52 1992 
Sigma MF 75-200mm F/2.8-3.5 IIIPush/pull
aka Quantaray 75-200mm F/2.8-3.5 MC		A13 - 101.20m⌀67 1985 
Sigma MF 75-210mm F/3.5-4.5 IIIPush/pullA11 - 81.50m⌀52 1985 
Sigma MF 70-210mm F/4.5 IIPush/pull
aka Quantaray 70-210mm F/4.5 MC		A12 - 91.00m⌀52 1983 
Sigma MF 70-210mm F/3.5-4.5 APOPush/pullA12 - 91.50m⌀52 1986 
Sigma MF 70-210mm F/4-5.6Push/pullA12 - 91.50m⌀52 1987 
Sigma MF 75-200mm F/3.8Push/pullA12 - 91.20m⌀55 1987 
Sigma MF 70-230mm F/4.5Push/pullA13 - 102.00m⌀62
Soligor C/D 70-222mm F/3.5 MC Macro (s/n 3xxxxxx)Push/pullA13 - 91.80m⌀67
Soligor C/D 70-210mm F/3.5 MC Macro (s/n 3xxxxxxx)A14 - 92.00m⌀62
Soligor C/D 70-220mm F/3.5 [MC] (s/n 1xxxxxxx)Push/pull
aka Spiratone 70-220mm F/3.5 Pluracoat Macro		A15 - 121.50m⌀72
RMC Tokina 70-210mm F/3.5Push/pullA14 - 101.40m⌀62 1980 
Tokina SD 70-210mm F/4-5.6Push/pullA12 - 81.30m⌀52 1985 
Vivitar Series 1 70-210mm F/3.5 Auto [VMC] Macro [I] (s/n 22xxxxxx)Push/pullA15 - 102.00m⌀67 1973 
Vivitar Series 1 70-210mm F/2.8-4 Q-Dos VMC Macro [III] (s/n 09xxxxxx)Push/pullA14 - 111.10m⌀58 1991 
Vivitar Series 1 70-210mm F/2.8-4 VMC Macro [I] (s/n 28xxxxxx)Push/pullA14 - 100.80m⌀62 1984 
Vivitar Series 1 70-210mm F/3.5 VMC Macro [II] (s/n 37xxxxxx)Push/pullA14 - 101.20m⌀62 1978 
Vivitar Series 1 70-210mm F/2.8-4 VMC Macro [II] (s/n 09xxxxxx)Push/pullA14 - 111.10m⌀58 1987 
Vivitar 75-205mm F/3.8 MC Macro (s/n 22xxxxxx)Push/pullA12 - 81.20m⌀62 1979 
Vivitar 75-205mm F/3.5-4.5 MC Macro (s/n 37xxxxxx)Push/pullA13 - 91.00m⌀55 1982 
Vivitar 70-210mm F/4.5 MC Macro (s/n 77xxxxxx)Push/pullA12 - 91.60m⌀52 1982 
Vivitar 70-210mm F/4.5-5.6 MC MacroPush/pullA12 - 81.50m⌀52 1986 
Vivitar 75-200mm F/4.5 MC Macro (s/n 42xxxxxx)Push/pullA12 - 91.50m⌀55 1986 
Vivitar 75-205mm F/3.8 Auto Close Focusing (s/n 22xxxxxx)A15 - 102.00m⌀58 1976 
Yashica ML 70-210mm F/4.5Push/pullA12 - 91.50m⌀55 1984 
Yashica ML 70-210mm F/4.5-5.6 MacroPush/pullA10 - 71.50m⌀52
Yashica ML 70-210mm F/4Push/pullA? - ?2.50m⌀62 1977 
Yashica DSB 70-210mm F/4A14 - 102.50m⌀58
Yashica DSB 75-200mm F/4.5 MacroA12 - 91.00m⌀55
Yashica MC 75-200mm F/4.5 MacroPush/pullA13 - 91.20m⌀55 1989 
Yashica MC 70-210mm F/4.5-5.6 MacroPush/pullA? - ?1.50m⌀52
Carl Zeiss Vario-Sonnar T* 70-210mm F/3.5 [AE]Push/pullA15 - 121.80mE67 1980 
Konica AR mount (27)
Kino Precision Kiron 70-210mm F/4.5 MC MacroPush/pullA12 - 91.30m⌀55 1985 
Kino Precision Kiron 70-210mm F/4 MC Macro Type 1Push/pullA13 - 91.50m⌀62 1982 
Konica Zoom-Hexanon ARP 70-230mm F/4.5P13 - 82.50m⌀67 1965 
Quantaray 75-200mm F/4.5 Auto MC MacroPush/pullA12 - 92.00m⌀55 1981 
Sigma-XQ MF 70-230mm F/4.5A13 - 102.00m⌀62 1975 
Sigma MF 75-200mm F/2.8-3.5 IIIPush/pull
aka Quantaray 75-200mm F/2.8-3.5 MC		A13 - 101.20m⌀67 1985 
Sigma MF 75-210mm F/3.5-4.5 IIIPush/pullA11 - 81.50m⌀52 1985 
Sigma MF 70-210mm F/4.5 IIPush/pull
aka Quantaray 70-210mm F/4.5 MC		A12 - 91.00m⌀52 1983 
Sigma MF 70-210mm F/3.5-4.5 APOPush/pullA12 - 91.50m⌀52 1986 
Sigma MF 70-210mm F/4-5.6Push/pullA12 - 91.50m⌀52 1987 
Sigma MF 75-200mm F/3.8Push/pullA12 - 91.20m⌀55 1987 
Sigma MF 70-230mm F/4.5Push/pullA13 - 102.00m⌀62
Soligor C/D 70-222mm F/3.5 MC Macro (s/n 3xxxxxx)Push/pullA13 - 91.80m⌀67
Soligor C/D 70-210mm F/3.5 MC Macro (s/n 3xxxxxxx)A14 - 92.00m⌀62
Soligor C/D 70-210mm F/3.5 [MC] (s/n 1xxxxxxx)A12 - 91.50m⌀67
Soligor C/D 70-220mm F/3.5 [MC] (s/n 1xxxxxxx)Push/pull
aka Spiratone 70-220mm F/3.5 Pluracoat Macro		A15 - 121.50m⌀72
RMC Tokina 70-210mm F/3.5Push/pullA14 - 101.40m⌀62 1980 
Tokina SD 70-210mm F/4-5.6Push/pullA12 - 81.30m⌀52 1985 
Vivitar Series 1 70-210mm F/3.5 Auto [VMC] Macro [I] (s/n 22xxxxxx)Push/pullA15 - 102.00m⌀67 1973 
Vivitar Series 1 70-210mm F/2.8-4 VMC Macro [I] (s/n 28xxxxxx)Push/pullA14 - 100.80m⌀62 1984 
Vivitar Series 1 70-210mm F/3.5 VMC Macro [II] (s/n 37xxxxxx)Push/pullA14 - 101.20m⌀62 1978 
Vivitar 75-205mm F/3.8 MC Macro (s/n 22xxxxxx)Push/pullA12 - 81.20m⌀62 1979 
Vivitar 75-205mm F/3.5-4.5 MC Macro (s/n 37xxxxxx)Push/pullA13 - 91.00m⌀55 1982 
Vivitar 70-210mm F/4.5 MC Macro (s/n 77xxxxxx)Push/pullA12 - 91.60m⌀52 1982 
Vivitar 70-210mm F/4.5-5.6 MC MacroPush/pullA12 - 81.50m⌀52 1986 
Vivitar 75-200mm F/4.5 MC Macro (s/n 42xxxxxx)Push/pullA12 - 91.50m⌀55 1986 
Vivitar 75-205mm F/3.8 Auto Close Focusing (s/n 22xxxxxx)A15 - 102.00m⌀58 1976 
Minolta SR mount (40)
Kino Precision Kiron 70-210mm F/4.5 MC MacroPush/pullA12 - 91.30m⌀55 1985 
Kino Precision Kiron 70-210mm F/4 MC Macro Type 1Push/pullA13 - 91.50m⌀62 1982 
Minolta MD 70-210mm F/4Push/pullA12 - 91.10m⌀55 1983 
Minolta MD 70-210mm F/4.5-5.6Push/pullA12 - 91.50m⌀55 1992 
Minolta MD Rokkor 75-200mm F/4.5Push/pullA15 - 111.20m⌀55 1978 
Minolta MD 75-200mm F/4.5Push/pullA15 - 111.20m⌀55 1981 
P. Angenieux 70-210mm F/3.5A15 - 110.86m⌀62 1982 
Quantaray 75-200mm F/4.5 Auto MC MacroPush/pullA12 - 92.00m⌀55 1981 
Sigma-XQ MF 70-230mm F/4.5A13 - 102.00m⌀62 1975 
Sigma MF 70-210mm F/4-5.6 UC-II ZENA13 - 91.20m⌀55 1995 
Sigma MF 70-210mm F/4-5.6 UC ZENPush/pullA13 - 91.20m⌀52 1989 
Sigma MF 70-210mm F/4-5.6 APO UC ZENPush/pullA14 - 111.20m⌀52 1992 
Sigma MF 75-200mm F/2.8-3.5 IIIPush/pull
aka Quantaray 75-200mm F/2.8-3.5 MC		A13 - 101.20m⌀67 1985 
Sigma MF 75-210mm F/3.5-4.5 IIIPush/pullA11 - 81.50m⌀52 1985 
Sigma MF 70-210mm F/4.5 IIPush/pull
aka Quantaray 70-210mm F/4.5 MC		A12 - 91.00m⌀52 1983 
Sigma MF 70-210mm F/3.5-4.5 APOPush/pullA12 - 91.50m⌀52 1986 
Sigma MF 70-210mm F/4-5.6Push/pullA12 - 91.50m⌀52 1987 
Sigma MF 75-200mm F/3.8Push/pullA12 - 91.20m⌀55 1987 
Sigma MF 70-230mm F/4.5Push/pullA13 - 102.00m⌀62
Soligor C/D 70-222mm F/3.5 MC Macro (s/n 3xxxxxx)Push/pullA13 - 91.80m⌀67
Soligor C/D 70-210mm F/3.5 MC Macro (s/n 3xxxxxxx)A14 - 92.00m⌀62
Soligor C/D 70-210mm F/3.5 [MC] (s/n 1xxxxxxx)A12 - 91.50m⌀67
Soligor C/D 70-220mm F/3.5 [MC] (s/n 1xxxxxxx)Push/pull
aka Spiratone 70-220mm F/3.5 Pluracoat Macro		A15 - 121.50m⌀72
Soligor 75-205mm F/3.5 Auto Macro (s/n 9xxxxxx)A? - ?2.00m⌀62
Soligor C/D 78-210mm F/3.5 (s/n 4xxxxxx)Push/pullA? - ?2.00m⌀62
RMC Tokina 70-210mm F/3.5Push/pullA14 - 101.40m⌀62 1980 
Tokina SD 70-210mm F/4-5.6Push/pullA12 - 81.30m⌀52 1985 
Tokina 70-210mm F/4.5-5.6Push/pullA12 - 81.10m⌀49
Vivitar Series 1 70-210mm F/3.5 Auto [VMC] Macro [I] (s/n 22xxxxxx)Push/pullA15 - 102.00m⌀67 1973 
Vivitar Series 1 70-210mm F/2.8-4 Q-Dos VMC Macro [III] (s/n 09xxxxxx)Push/pullA14 - 111.10m⌀58 1991 
Vivitar Series 1 70-210mm F/2.8-4 VMC Macro [I] (s/n 28xxxxxx)Push/pullA14 - 100.80m⌀62 1984 
Vivitar Series 1 70-210mm F/3.5 VMC Macro [II] (s/n 37xxxxxx)Push/pullA14 - 101.20m⌀62 1978 
Vivitar Series 1 70-210mm F/2.8-4 VMC Macro [II] (s/n 09xxxxxx)Push/pullA14 - 111.10m⌀58 1987 
Vivitar 75-205mm F/3.8 MC Macro (s/n 22xxxxxx)Push/pullA12 - 81.20m⌀62 1979 
Vivitar 75-205mm F/3.5-4.5 MC Macro (s/n 37xxxxxx)Push/pullA13 - 91.00m⌀55 1982 
Vivitar 70-210mm F/4.5 MC Macro (s/n 77xxxxxx)Push/pullA12 - 91.60m⌀52 1982 
Vivitar 70-210mm F/4.5-5.6 MC MacroPush/pullA12 - 81.50m⌀52 1986 
Vivitar 75-200mm F/4.5 MC Macro (s/n 42xxxxxx)Push/pullA12 - 91.50m⌀55 1986 
Vivitar 75-205mm F/3.8 Auto Close Focusing (s/n 22xxxxxx)A15 - 102.00m⌀58 1976 
Leonar 70-210mm F/3.8 MC MacroPush/pullA12 - ?1.50m⌀58
Nikon F mount (38)
Kino Precision Kiron 70-210mm F/4.5 MC MacroPush/pullA12 - 91.30m⌀55 1985 
Kino Precision Kiron 70-210mm F/4 MC Macro Type 1Push/pullA13 - 91.50m⌀62 1982 
Nikon AI-S Zoom-Nikkor 70-210mm F/4.5-5.6Push/pullA11 - 81.50m⌀52 1995 
Nikon Series E Zoom 70-210mm F/4Push/pullA13 - 91.50m⌀62 1981 
P. Angenieux 70-210mm F/3.5A15 - 110.86m⌀62 1982 
Quantaray 75-200mm F/4.5 Auto MC MacroPush/pullA12 - 92.00m⌀55 1981 
Sigma-XQ MF 70-230mm F/4.5A13 - 102.00m⌀62 1975 
Sigma MF 70-210mm F/4-5.6 UC-II ZENA13 - 91.20m⌀55 1995 
Sigma MF 70-210mm F/4-5.6 UC ZENPush/pullA13 - 91.20m⌀52 1989 
Sigma MF 70-210mm F/4-5.6 APO UC ZENPush/pullA14 - 111.20m⌀52 1992 
Sigma MF 75-200mm F/2.8-3.5 IIIPush/pull
aka Quantaray 75-200mm F/2.8-3.5 MC		A13 - 101.20m⌀67 1985 
Sigma MF 75-210mm F/3.5-4.5 IIIPush/pullA11 - 81.50m⌀52 1985 
Sigma MF 70-210mm F/4.5 IIPush/pull
aka Quantaray 70-210mm F/4.5 MC		A12 - 91.00m⌀52 1983 
Sigma MF 70-210mm F/3.5-4.5 APOPush/pullA12 - 91.50m⌀52 1986 
Sigma MF 70-210mm F/4-5.6Push/pullA12 - 91.50m⌀52 1987 
Sigma MF 75-200mm F/3.8Push/pullA12 - 91.20m⌀55 1987 
Sigma MF 70-230mm F/4.5Push/pullA13 - 102.00m⌀62
Soligor C/D 70-222mm F/3.5 MC Macro (s/n 3xxxxxx)Push/pullA13 - 91.80m⌀67
Soligor C/D 70-210mm F/3.5 MC Macro (s/n 3xxxxxxx)A14 - 92.00m⌀62
Soligor C/D 70-210mm F/3.5 [MC] (s/n 1xxxxxxx)A12 - 91.50m⌀67
Soligor C/D 70-220mm F/3.5 [MC] (s/n 1xxxxxxx)Push/pull
aka Spiratone 70-220mm F/3.5 Pluracoat Macro		A15 - 121.50m⌀72
Soligor 75-205mm F/3.5 Auto Macro (s/n 9xxxxxx)A? - ?2.00m⌀62
Soligor C/D 78-210mm F/3.5 (s/n 4xxxxxx)Push/pullA? - ?2.00m⌀62
RMC Tokina 70-210mm F/3.5Push/pullA14 - 101.40m⌀62 1980 
Tokina SD 70-210mm F/4-5.6Push/pullA12 - 81.30m⌀52 1985 
Tokina 70-210mm F/4.5-5.6Push/pullA12 - 81.10m⌀49
Vivitar Series 1 70-210mm F/3.5 Auto [VMC] Macro [I] (s/n 22xxxxxx)Push/pullA15 - 102.00m⌀67 1973 
Vivitar Series 1 70-210mm F/2.8-4 Q-Dos VMC Macro [III] (s/n 09xxxxxx)Push/pullA14 - 111.10m⌀58 1991 
Vivitar Series 1 70-210mm F/2.8-4 VMC Macro [I] (s/n 28xxxxxx)Push/pullA14 - 100.80m⌀62 1984 
Vivitar Series 1 70-210mm F/3.5 VMC Macro [II] (s/n 37xxxxxx)Push/pullA14 - 101.20m⌀62 1978 
Vivitar Series 1 70-210mm F/2.8-4 VMC Macro [II] (s/n 09xxxxxx)Push/pullA14 - 111.10m⌀58 1987 
Vivitar 75-205mm F/3.8 MC Macro (s/n 22xxxxxx)Push/pullA12 - 81.20m⌀62 1979 
Vivitar 75-205mm F/3.5-4.5 MC Macro (s/n 37xxxxxx)Push/pullA13 - 91.00m⌀55 1982 
Vivitar 70-210mm F/4.5 MC Macro (s/n 77xxxxxx)Push/pullA12 - 91.60m⌀52 1982 
Vivitar 70-210mm F/4.5-5.6 MC MacroPush/pullA12 - 81.50m⌀52 1986 
Vivitar 75-200mm F/4.5 MC Macro (s/n 42xxxxxx)Push/pullA12 - 91.50m⌀55 1986 
Vivitar 75-205mm F/3.8 Auto Close Focusing (s/n 22xxxxxx)A15 - 102.00m⌀58 1976 
Leonar 70-210mm F/3.8 MC MacroPush/pullA12 - ?1.50m⌀58
Olympus OM mount (36)
Kino Precision Kiron 70-210mm F/4.5 MC MacroPush/pullA12 - 91.30m⌀55 1985 
Kino Precision Kiron 70-210mm F/4 MC Macro Type 1Push/pullA13 - 91.50m⌀62 1982 
Olympus OM Zuiko Auto 65-200mm F/4Push/pullA14 - 111.20m⌀55 1983 
Olympus OM S Zuiko Auto 70-210mm F/4.5-5.6Push/pullA10 - 71.50m⌀52 1997 
P. Angenieux 70-210mm F/3.5A15 - 110.86m⌀62 1982 
Quantaray 75-200mm F/4.5 Auto MC MacroPush/pullA12 - 92.00m⌀55 1981 
Sigma-XQ MF 70-230mm F/4.5A13 - 102.00m⌀62 1975 
Sigma MF 70-210mm F/4-5.6 UC-II ZENA13 - 91.20m⌀55 1995 
Sigma MF 70-210mm F/4-5.6 UC ZENPush/pullA13 - 91.20m⌀52 1989 
Sigma MF 70-210mm F/4-5.6 APO UC ZENPush/pullA14 - 111.20m⌀52 1992 
Sigma MF 75-200mm F/2.8-3.5 IIIPush/pull
aka Quantaray 75-200mm F/2.8-3.5 MC		A13 - 101.20m⌀67 1985 
Sigma MF 75-210mm F/3.5-4.5 IIIPush/pullA11 - 81.50m⌀52 1985 
Sigma MF 70-210mm F/4.5 IIPush/pull
aka Quantaray 70-210mm F/4.5 MC		A12 - 91.00m⌀52 1983 
Sigma MF 70-210mm F/3.5-4.5 APOPush/pullA12 - 91.50m⌀52 1986 
Sigma MF 70-210mm F/4-5.6Push/pullA12 - 91.50m⌀52 1987 
Sigma MF 75-200mm F/3.8Push/pullA12 - 91.20m⌀55 1987 
Sigma MF 70-230mm F/4.5Push/pullA13 - 102.00m⌀62
Soligor C/D 70-222mm F/3.5 MC Macro (s/n 3xxxxxx)Push/pullA13 - 91.80m⌀67
Soligor C/D 70-210mm F/3.5 MC Macro (s/n 3xxxxxxx)A14 - 92.00m⌀62
Soligor C/D 70-210mm F/3.5 [MC] (s/n 1xxxxxxx)A12 - 91.50m⌀67
Soligor C/D 70-220mm F/3.5 [MC] (s/n 1xxxxxxx)Push/pull
aka Spiratone 70-220mm F/3.5 Pluracoat Macro		A15 - 121.50m⌀72
Soligor 75-205mm F/3.5 Auto Macro (s/n 9xxxxxx)A? - ?2.00m⌀62
Soligor C/D 78-210mm F/3.5 (s/n 4xxxxxx)Push/pullA? - ?2.00m⌀62
RMC Tokina 70-210mm F/3.5Push/pullA14 - 101.40m⌀62 1980 
Tokina SD 70-210mm F/4-5.6Push/pullA12 - 81.30m⌀52 1985 
Vivitar Series 1 70-210mm F/3.5 Auto [VMC] Macro [I] (s/n 22xxxxxx)Push/pullA15 - 102.00m⌀67 1973 
Vivitar Series 1 70-210mm F/2.8-4 Q-Dos VMC Macro [III] (s/n 09xxxxxx)Push/pullA14 - 111.10m⌀58 1991 
Vivitar Series 1 70-210mm F/2.8-4 VMC Macro [I] (s/n 28xxxxxx)Push/pullA14 - 100.80m⌀62 1984 
Vivitar Series 1 70-210mm F/3.5 VMC Macro [II] (s/n 37xxxxxx)Push/pullA14 - 101.20m⌀62 1978 
Vivitar Series 1 70-210mm F/2.8-4 VMC Macro [II] (s/n 09xxxxxx)Push/pullA14 - 111.10m⌀58 1987 
Vivitar 75-205mm F/3.8 MC Macro (s/n 22xxxxxx)Push/pullA12 - 81.20m⌀62 1979 
Vivitar 75-205mm F/3.5-4.5 MC Macro (s/n 37xxxxxx)Push/pullA13 - 91.00m⌀55 1982 
Vivitar 70-210mm F/4.5 MC Macro (s/n 77xxxxxx)Push/pullA12 - 91.60m⌀52 1982 
Vivitar 70-210mm F/4.5-5.6 MC MacroPush/pullA12 - 81.50m⌀52 1986 
Vivitar 75-200mm F/4.5 MC Macro (s/n 42xxxxxx)Push/pullA12 - 91.50m⌀55 1986 
Vivitar 75-205mm F/3.8 Auto Close Focusing (s/n 22xxxxxx)A15 - 102.00m⌀58 1976 
Interchangeable mount (7)
Tamron SP 70-210mm F/3.5-4 52A [Adaptall-2]A16 - 150.75m⌀58 1979 
Tamron SP 70-210mm F/3.5 19AH [Adaptall-2]Push/pullA15 - 110.85m⌀62 1984 
Tamron 70-210mm F/3.8-4 46A [Adaptall-2]Push/pullA12 - 90.90m⌀58 1986 
Tamron 70-210mm F/4-5.6 58A [Adaptall-2]Push/pullA13 - 91.10m⌀52 1988 
Tamron 70-210mm F/4-5.6 158A [Adaptall-2]Push/pullA13 - 91.10m⌀52 1991 
Tamron 70-220mm F/3.8 Z-220 [Adaptall]A14 - 112.50m⌀62 1973 
Auto Tamron 70-220mm F/4 [Adapt-A-Matic]A14 - 112.00m⌀67 1969 
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Table of contents
Clickable
Class
Pros and cons
Recommended slowest shutter speed when shooting static subjects handheld
Genres or subjects of photography

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Chromatic aberration

There are two kinds of chromatic aberration: longitudinal and lateral. Longitudinal chromatic aberration is a variation in location of the image plane with changes in wave lengths. It produces the image point surrounded by different colors which result in a blurred image in black-and-white pictures. Lateral chromatic aberration is a variation in image size or magnification with wave length. This aberration does not appear at axial image points but toward the surrounding area, proportional to the distance from the center of the image field. Stopping down the lens has only a limited effect on these aberrations.

Spherical aberration

Spherical aberration is caused because the lens is round and the film or image sensor is flat. Light entering the edge of the lens is more severely refracted than light entering the center of the lens. This results in a blurred image, and also causes flare (non-image forming internal reflections). Stopping down the lens minimizes spherical aberration and flare, but introduces diffraction.

Astigmatism

Astigmatism in a lens causes a point in the subject to be reproduced as a line in the image. The effect becomes worse towards the corner of the image. Stopping down the lens has very little effect.

Coma

Coma in a lens causes a circular shape in the subject to be reproduced as an oval shape in the image. Stopping down the lens has almost no effect.

Curvature of field

Curvature of field is the inability of a lens to produce a flat image of a flat subject. The image is formed instead on a curved surface. If the center of the image is in focus, the edges are out of focus and vice versa. Stopping down the lens has a limited effect.

Distortion

Distortion is the inability of a lens to capture lines as straight across the entire image area. Barrel distortion causes straight lines at the edges of the frame to bow toward the center of the image, producing a barrel shape. Pincushion distortion causes straight lines at the edges of the frame to curve in toward the lens axis. Distortion, whether barrel or pincushion type, is caused by differences in magnification; stopping down the lens has no effect at all.

The term "distortion" is also sometimes used instead of the term "aberration". In this case, other types of optical aberrations may also be meant, not necessarily geometric distortion.

Diffraction

Classically, light is thought of as always traveling in straight lines, but in reality, light waves tend to bend around nearby barriers, spreading out in the process. This phenomenon is known as diffraction and occurs when a light wave passes by a corner or through an opening. Diffraction plays a paramount role in limiting the resolving power of any lens.

Doublet

Doublet is a lens design comprised of two elements grouped together. Sometimes the two elements are cemented together, and other times they are separated by an air gap. Examples of this type of lens include achromatic close-up lenses.

Dynamic range

Dynamic range is the maximum range of tones, from darkest shadows to brightest highlights, that can be produced by a device or perceived in an image. Also called tonal range.

Resolving power

Resolving power is the ability of a lens, photographic emulsion or imaging sensor to distinguish fine detail. Resolving power is expressed in terms of lines per millimeter that are distinctly recorded in the final image.

Vignetting

Vignetting is the darkening of the corners of an image relative to the center of the image. There are three types of vignetting: optical, mechanical, and natural vignetting.

Optical vignetting is caused by the physical dimensions of a multi-element lens. Rear elements are shaded by elements in front of them, which reduces the effective lens opening for off-axis incident light. The result is a gradual decrease of the light intensity towards the image periphery. Optical vignetting is sensitive to the aperture and can be completely cured by stopping down the lens. Two or three stops are usually sufficient.

Mechanical vignetting occurs when light beams are partially blocked by external objects such as thick or stacked filters, secondary lenses, and improper lens hoods.

Natural vignetting (also known as natural illumination falloff) is not due to the blocking of light rays. The falloff is approximated by the "cosine fourth" law of illumination falloff. Wide-angle rangefinder designs are particularly prone to natural vignetting. Stopping down the lens cannot cure it.

Flare

Bright shapes or lack of contrast caused when light is scattered by the surface of the lens or reflected off the interior surfaces of the lens barrel. This is most often seen when the lens is pointed toward the sun or another bright light source. Flare can be minimized by using anti-reflection coatings, light baffles, or a lens hood.

Ghosting

Glowing patches of light that appear in a photograph due to lens flare.

Retrofocus design

Design with negative lens group(s) positioned in front of the diaphragm and positive lens group(s) positioned at the rear of the diaphragm. This provides a short focal length with a long back focus or lens-to-film distance, allowing for movement of the reflex mirror in SLR cameras. Sometimes called an inverted telephoto lens.

Anastigmat

A photographic lens completely corrected for the three main optical aberrations: spherical aberration, coma, and astigmatism.

By the mid-20th century, the vast majority of lenses were close to being anastigmatic, so most manufacturers stopped including this characteristic in lens names and/or descriptions and focused on advertising other features (anti-reflection coating, for example).

Rectilinear design

Design that does not introduce significant distortion, especially ultra-wide angle lenses that preserve straight lines and do not curve them (unlike a fisheye lens, for instance).

Focus shift

A change in the position of the plane of optimal focus, generally due to a change in focal length when using a zoom lens, and in some lenses, with a change in aperture.

Transmittance

The amount of light that passes through a lens without being either absorbed by the glass or being reflected by glass/air surfaces.

Modulation Transfer Function (MTF)

When optical designers attempt to compare the performance of optical systems, a commonly used measure is the modulation transfer function (MTF).

The components of MTF are:

The MTF of a lens is a measurement of its ability to transfer contrast at a particular resolution from the object to the image. In other words, MTF is a way to incorporate resolution and contrast into a single specification.

Knowing the MTF curves of each photographic lens and camera sensor within a system allows a designer to make the appropriate selection when optimizing for a particular resolution.

Veiling glare

Lens flare that causes loss of contrast over part or all of the image.

Anti-reflection coating

When light enters or exits an uncoated lens approximately 5% of the light is reflected back at each lens-air boundary due to the difference in refractive index. This reflected light causes flare and ghosting, which results in deterioration of image quality. To counter this, a vapor-deposited coating that reduces light reflection is applied to the lens surface. Early coatings consisted of a single thin film with the correct refractive index differences to cancel out reflections. Multi-layer coatings, introduced in the early 1970s, are made up of several such films.

Benefits of anti-reflection coating:

Circular fisheye

Produces a 180° angle of view in all directions (horizontal, vertical and diagonal).

The image circle of the lens is inscribed in the image frame.

Diagonal (full-frame) fisheye

Covers the entire image frame. For this reason diagonal fisheye lenses are often called full-frame fisheyes.

Extension ring

Extension rings can be used singly or in combination to vary the reproduction ratio of lenses. They are mounted between the camera body and the lens. As a rule, the effect becomes stronger the shorter the focal length of the lens in use, and the longer the focal length of the extension ring.

View camera

A large-format camera with a ground-glass viewfinder at the image plane for viewing and focusing. The photographer must stick his head under a cloth hood in order to see the image projected on the ground glass. Because of their 4x5-inch (or larger) negatives, these cameras can produce extremely high-quality results. View cameras also usually support movements.

135 cartridge-loaded film

43.27 24 36
  • Introduced: 1934
  • Frame size: 36 × 24mm
  • Aspect ratio: 3:2
  • Diagonal: 43.27mm
  • Area: 864mm2
  • Double perforated
  • 8 perforations per frame

120 roll film

71.22 44 56
  • Introduced: 1901
  • Frame size: 56 × 44mm
  • Aspect ratio: 11:14
  • Diagonal: 71.22mm
  • Area: 2464mm2
  • Unperforated

120 roll film

79.2 56 56
  • Introduced: 1901
  • Frame size: 56 × 56mm
  • Aspect ratio: 1:1
  • Diagonal: 79.2mm
  • Area: 3136mm2
  • Unperforated

120 roll film

89.64 56 70
  • Introduced: 1901
  • Frame size: 70 × 56mm
  • Aspect ratio: 5:4
  • Diagonal: 89.64mm
  • Area: 3920mm2
  • Unperforated

220 roll film

71.22 44 56
  • Introduced: 1965
  • Frame size: 56 × 44mm
  • Aspect ratio: 11:14
  • Diagonal: 71.22mm
  • Area: 2464mm2
  • Unperforated
  • Double the length of 120 roll film

220 roll film

79.2 56 56
  • Introduced: 1965
  • Frame size: 56 × 56mm
  • Aspect ratio: 1:1
  • Diagonal: 79.2mm
  • Area: 3136mm2
  • Unperforated
  • Double the length of 120 roll film

220 roll film

89.64 56 70
  • Introduced: 1965
  • Frame size: 70 × 56mm
  • Aspect ratio: 5:4
  • Diagonal: 89.64mm
  • Area: 3920mm2
  • Unperforated
  • Double the length of 120 roll film

Shutter speed ring with "F" setting

The "F" setting disengages the leaf shutter and is set when using only the focal plane shutter in the camera body.

Catch for disengaging cross-coupling

The shutter and diaphragm settings are cross-coupled so that the diaphragm opens to a corresponding degree when faster shutter speeds are selected. The cross-coupling can be disengaged at the press of a catch.

Cross-coupling button

With the cross-coupling button depressed speed/aperture combinations can be altered without changing the Exposure Value setting.

M & X sync

The shutter is fully synchronized for M- and X-settings so that you can work with flash at all shutter speeds.

In M-sync, the shutter closes the flash-firing circuit slightly before it is fully open to catch the flash at maximum intensity. The M-setting is used for Class M flash bulbs.

In X-sync, the flash takes place when the shutter is fully opened. The X-setting is used for electronic flash.

X sync

The shutter is fully synchronized for X-setting so that you can work with flash at all shutter speeds.

In X-sync, the flash takes place when the shutter is fully opened. The X-setting is used for electronic flash.

MF

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MF

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MF

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MF

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MF

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MF

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Image stabilizer

A technology used for reducing or even eliminating the effects of camera shake. Gyro sensors inside the lens detect camera shake and pass the data to a microcomputer. Then an image stabilization group of elements controlled by the microcomputer moves inside the lens and compensates camera shake in order to keep the image static on the imaging sensor or film.

The technology allows to increase the shutter speed by several stops and shoot handheld in such lighting conditions and at such focal lengths where without image stabilizer you have to use tripod, decrease the shutter speed and/or increase the ISO setting which can lead to blurry and noisy images.

Original name

Lens name as indicated on the lens barrel (usually on the front ring). With lenses from film era, may vary slightly from batch to batch.

Format

Format refers to the shape and size of film or image sensor.

35mm is the common name of the 36x24mm film format or image sensor format. It has an aspect ratio of 3:2, and a diagonal measurement of approximately 43mm. The name originates with the total width of the 135 film which was the primary medium of the format prior to the invention of the full frame digital SLR. Historically the 35mm format was sometimes called small format to distinguish it from the medium and large formats.

APS-C is an image sensor format approximately equivalent in size to the film negatives of 25.1x16.7mm with an aspect ratio of 3:2.

Medium format is a film format or image sensor format larger than 36x24mm (35mm) but smaller than 4x5in (large format).

Angle of view

Angle of view describes the angular extent of a given scene that is imaged by a camera. It is used interchangeably with the more general term field of view.

As the focal length changes, the angle of view also changes. The shorter the focal length (eg 18mm), the wider the angle of view. Conversely, the longer the focal length (eg 55mm), the smaller the angle of view.

A camera's angle of view depends not only on the lens, but also on the sensor. Imaging sensors are sometimes smaller than 35mm film frame, and this causes the lens to have a narrower angle of view than with 35mm film, by a certain factor for each sensor (called the crop factor).

This website does not use the angles of view provided by lens manufacturers, but calculates them automatically by the following formula: 114.6 * arctan (21.622 / CF * FL),

where:

CF – crop-factor of a sensor,
FL – focal length of a lens.

Mount

A lens mount is an interface — mechanical and often also electrical — between a camera body and a lens.

A lens mount may be a screw-threaded type, a bayonet-type, or a breech-lock type. Modern camera lens mounts are of the bayonet type, because the bayonet mechanism precisely aligns mechanical and electrical features between lens and body, unlike screw-threaded mounts.

Lens mounts of competing manufacturers (Canon, Nikon, Pentax, Sony etc.) are always incompatible. In addition to the mechanical and electrical interface variations, the flange focal distance can also be different.

The flange focal distance (FFD) is the distance from the mechanical rear end surface of the lens mount to the focal plane.

Lens construction

Lens construction – a specific arrangement of elements and groups that make up the optical design, including type and size of elements, type of used materials etc.

Element - an individual piece of glass which makes up one component of a photographic lens. Photographic lenses are nearly always built up of multiple such elements.

Group – a cemented together pieces of glass which form a single unit or an individual piece of glass. The advantage is that there is no glass-air surfaces between cemented together pieces of glass, which reduces reflections.

Focal length

The focal length is the factor that determines the size of the image reproduced on the focal plane, picture angle which covers the area of the subject to be photographed, depth of field, etc.

Speed

The largest opening or stop at which a lens can be used is referred to as the speed of the lens. The larger the maximum aperture is, the faster the lens is considered to be. Lenses that offer a large maximum aperture are commonly referred to as fast lenses, and lenses with smaller maximum aperture are regarded as slow.

In low-light situations, having a wider maximum aperture means that you can shoot at a faster shutter speed or work at a lower ISO, or both.

Closest focusing distance

The minimum distance from the focal plane (film or sensor) to the subject where the lens is still able to focus.

Closest working distance

The distance from the front edge of the lens to the subject at the maximum magnification.

Magnification ratio

Determines how large the subject will appear in the final image. Magnification is expressed as a ratio. For example, a magnification ratio of 1:1 means that the image of the subject formed on the film or sensor will be the same size as the subject in real life. For this reason, a 1:1 ratio is often called "life-size".

Manual diaphragm

The diaphragm must be stopped down manually by rotating the detent aperture ring.

Preset diaphragm

The lens has two rings, one is for pre-setting, while the other is for normal diaphragm adjustment. The first ring must be set at the desired aperture, the second ring then should be fully opened for focusing, and turned back for stop down to the pre-set value.

Semi-automatic diaphragm

The lens features spring mechanism in the diaphragm, triggered by the shutter release, which stops down the diaphragm to the pre-set value. The spring needs to be reset manually after each exposure to re-open diaphragm to its maximum value.

Automatic diaphragm

The camera automatically closes the diaphragm down during the shutter operation. On completion of the exposure, the diaphragm re-opens to its maximum value.

Fixed diaphragm

The aperture setting is fixed at F/4 on this lens, and cannot be adjusted.

Number of blades

As a general rule, the more blades that are used to create the aperture opening in the lens, the rounder the out-of-focus highlights will be.

Some lenses are designed with curved diaphragm blades, so the roundness of the aperture comes not from the number of blades, but from their shape. However, the fewer blades the diaphragm has, the more difficult it is to form a circle, regardless of rounded edges.

At maximum aperture, the opening will be circular regardless of the number of blades.

Weight

Excluding case or pouch, caps and other detachable accessories (lens hood, close-up adapter, tripod adapter etc.).

Maximum diameter x Length

Excluding case or pouch, caps and other detachable accessories (lens hood, close-up adapter, tripod adapter etc.).

For lenses with collapsible design, the length is indicated for the working (retracted) state.

Weather sealing

A rubber material which is inserted in between each externally exposed part (manual focus and zoom rings, buttons, switch panels etc.) to ensure it is properly sealed against dust and moisture.

Lenses that accept front mounted filters typically do not have gaskets behind the filter mount. It is recommended to use a filter for complete weather resistance when desired.

Fluorine coating

Helps keep lenses clean by reducing the possibility of dust and dirt adhering to the lens and by facilitating cleaning should the need arise. Applied to the outer surface of the front and/or rear lens elements over multi-coatings.

Filters

Lens filters are accessories that can protect lenses from dirt and damage, enhance colors, minimize glare and reflections, and add creative effects to images.

Lens hood

A lens hood or lens shade is a device used on the end of a lens to block the sun or other light source in order to prevent glare and lens flare. Flare occurs when stray light strikes the front element of a lens and then bounces around within the lens. This stray light often comes from very bright light sources, such as the sun, bright studio lights, or a bright white background.

The geometry of the lens hood can vary from a plain cylindrical or conical section to a more complex shape, sometimes called a petal, tulip, or flower hood. This allows the lens hood to block stray light with the higher portions of the lens hood, while allowing more light into the corners of the image through the lowered portions of the hood.

Lens hoods are more prominent in long focus lenses because they have a smaller viewing angle than that of wide-angle lenses. For wide angle lenses, the length of the hood cannot be as long as those for telephoto lenses, as a longer hood would enter the wider field of view of the lens.

Lens hoods are often designed to fit onto the matching lens facing either forward, for normal use, or backwards, so that the hood may be stored with the lens without occupying much additional space. In addition, lens hoods can offer some degree of physical protection for the lens due to the hood extending farther than the lens itself.

Teleconverters

Teleconverters increase the effective focal length of lenses. They also usually maintain the closest focusing distance of lenses, thus increasing the magnification significantly. A lens combined with a teleconverter is normally smaller, lighter and cheaper than a "direct" telephoto lens of the same focal length and speed.

Teleconverters are a convenient way of enhancing telephoto capability, but it comes at a cost − reduced maximum aperture. Also, since teleconverters magnify every detail in the image, they logically also magnify residual aberrations of the lens.

Lens caps

Scratched lens surfaces can spoil the definition and contrast of even the finest lenses. Lens covers are the best and most inexpensive protection available against dust, moisture and abrasion. Safeguard lens elements - both front and rear - whenever the lens is not in use.

Rotary zoom

The change of focal length is achieved by turning the zoom ring.

Push/pull zooming allows for faster change of focal length, however conventional method based on the rotation of the zoom ring provides more accurate and smooth zooming.

Push/pull zoom

The change of focal length and the manual focusing is achieved by one and the same ring. The change of focal length happens when the photographer moves the ring towards the mount or backwards and the rotation of the ring leads to change of focus.

Push/pull zooming allows for faster change of focal length, however conventional method based on the rotation of the zoom ring provides more accurate and smooth zooming.

Zoom lock

The lens features a zoom lock to keep the zoom ring fixed. This function is convenient for carrying a camera with the lens on a strap because it prevents the lens from extending.

Zoom clutch

To set the manual zoom mode, pull the zoom ring towards the camera side until the words "POWER ZOOM" disappear.