Crop factor is the
ratio of a camera sensor's size to a 35mm film frame. Use it to calculate
effective focal lengths and compare lenses between DSLRs.
Crop factor is a term
that describes the difference between your camera's sensor size and a traditional
35mm film frame. It's mainly used as a way of comparing lens focal lengths when
fitted to different cameras, which is more important than it sounds.
Although crop factor
seems complicated, it's not as hard as you might think, and it's an important
and useful concept to grasp. Once you understand it, you'll be able to make
more informed choices when selecting which lens to use, or when buying
equipment.
THE
PROBLEM
When you fit a lens to
a camera, it projects a circular image towards the back of the camera. For a
particular lens, this image is the same regardless of what camera it's mounted
on. When the image hits the film or sensor, a rectangular portion is recorded.
In the days before
digital photography, all SLR cameras used 35mm film. This meant that they all
captured the same portion of the projected image, resulting in the same photo
for a given lens.
Digital cameras have
complicated things somewhat. Film has been replaced by sensors which are
usually smaller than 35mm film. Because they're physically smaller, they
capture a smaller area of the projected image, resulting in a photo which
covers a narrower angle of view.
A
cropped sensor captures less of the projected image. The narrower angle of view
gives the impression of using a longer focal length. Image by Barry.
This narrower viewing
angle makes the photo appear more "zoomed in", which poses a problem
- if the same lens can produce different images on different cameras, how can
you compare lenses in a meaningful way, or predict what field of view they'll
cover on different cameras? Crop factor was invented to solve this problem.
WHAT
IS CROP FACTOR?
Crop factor describes
the size difference between a 35mm film frame and your camera's sensor. For
example, if your camera has a crop factor of 2, it means that a 35mm film frame
is twice as large as your camera's sensor.
Modern digital cameras
are fitted with sensors of varying size. The best digital SLRs have sensors which
are the same size as 35mm film, so they have a crop factor of 1 (this is known
as "full-frame"). At the other end of the scale, digital compact
cameras have very small sensors, and high crop factors of 5 of 6. The higher
the crop factor, the more noticeable the "zooming in" effect for a
given focal length.
You can calculate your
camera's crop factor by dividing the diagonal length of a 35mm frame by the
diagonal length of your camera's sensor. The numbers can get a bit convoluted,
but thankfully camera manufacturers list the crop factor in the user manual to
save you time and effort.
EFFECTIVE
FOCAL LENGTH
This is all very
interesting (or maybe it isn't!), but how does it affect you when you're out
taking photos, or shopping for a new camera or lens? Well, it allows you to
make comparisons between different lenses and cameras that would otherwise be
difficult to make.
If you multiply a
lens's focal length by the camera's crop factor, you get the "equivalent
focal length", which is the focal length needed to produce the same angle
of view on a 35mm camera. This is why you might also hear crop factor referred
to as the "focal length multiplier" (or "FLM").
For example, a 50mm
lens on a 1.5 crop factor camera has an effective focal length of 75mm, because
50 x 1.5 = 75. If you fitted a 75mm lens to a 35mm camera, you'd get a photo
with the same field of view.
This removes some of
the guesswork involved in choosing a lens. You might want a lens that
replicates the effect of a 200mm telephoto lens on a full-frame camera. By
using your camera's crop factor, you can calculate the exact focal length you
need to shop for.
The following table
lists the effective focal lengths of some of the most common focal lengths when
used with cameras with common crop factors.
|
1.3x |
1.5x |
1.6x |
2.0x |
10mm |
13mm |
15mm |
16mm |
20mm |
17mm |
22mm |
26mm |
27mm |
34mm |
20mm |
26mm |
30mm |
32mm |
40mm |
28mm |
36mm |
42mm |
45mm |
56mm |
35mm |
46mm |
53mm |
56mm |
70mm |
50mm |
65mm |
75mm |
80mm |
100mm |
100mm |
130mm |
150mm |
160mm |
200mm |
200mm |
260mm |
300mm |
320mm |
400mm |
400mm |
520mm |
600mm |
640mm |
800mm |
600mm |
780mm |
900mm |
960mm |
1200mm |
Equivalent
focal lengths for common lenses and crop factors. |
Hopefully you now have
a clearer idea of what crop factor means and how it allows you to directly
compare lenses regardless of the camera body. It will help you make more
informed decisions when buying, and assist you in choosing the right lens to
shoot a scene, taking away some of the guesswork and confusion involved in
selecting a lens.