19 April 2010

The fisheye tin cam

[You can find other DIY photography projects here]
[Also I'd like to shout out to the good folks at Photojojo - if you like photo goodies, I'd recommend perusing their catalog of awesome. *]


Fisheye lenses are insanely fun to shoot with. They allow you to shoot at very wide angles - wide enough lenses will get people standing right next to you into the shot. I've always loved the wide angle look in videos, and I thought it'd be an awesome exercise in redundant and needless hackery to build my own.

Here's the gloriously ugly result:

fisheye tin cam: final build

Built using a fisheye peephole as the main lens element and a decapitated soda can as the lens body (!), this attaches directly to my SLR camera. For well under US$20, I ended up with a lens that has nearly a 180-degree field-of-view, adjustable focus, a canon EOS mount, and due to it's stylish and sleek exterior, can generate limitless amounts of admiration ridicule confusion. Unlike commonly (and cheaply) available fisheye adapters, this build does not attach to the front of an existing lens - it's a completely self-contained unit that doesn't require any other optics to work.

Step 1: Research!

The cheapest and easiest to get fisheye lens out there at the moment is the garden variety door peephole lens. These simple optical devices can be picked up cheaply at your local hardware store. I picked up mine for US$6; it offered a huge field of view (nearly 180 degrees).

As I discovered in my previous hacks, individual lenses are hard to directly transplant from one device to another. Often an intermediate lens is required to refocus the image so it hits the sensor/film correctly. The peephole lens couldn't be used directly with the SLR - like the phone-o-scope, it needed a teleconverter is needed to magnify the small image at the end of the fisheye barrel, and bring it into focus at the image sensor.

A number of good tutorials have gone over the method of using an existing, standard lens as a teleconverter. That's where I started:

fisheye tin cam: first try
First attempt

...and while this works, I didn't like the idea of having a complex lens in-between the fisheye and the camera. Modern lenses have many internal elements, each one dimming the image coming from the fisheye and leading to low-contrast images. I wanted to build a lens that would remove the complex in-between lens and replace it with a simple one that wouldn't lose quite as much light.

Step 2: Testing

I needed to couple the fisheye lens with something that would magnify the image coming out of it, and space it so that it would form a good image at the sensor. Rummaging around in my parts box, I found an old, single element projector lens that came from an old 35mm slide projector. These are pretty pretty easy to find, and I've seen them a lot at garage sales.

fisheye tin cam: optics
Left: projector lens, right: fisheye lens


I took the body cap off my camera, and held the two lenses in front of the body. Looking through the viewfinder and experimenting with the lens positions, I was able to come up with an estimate for how far the lenses needed to be apart from each other and the camera body to make a reasonable image. Running around loosely holding lenses in front of the camera tends to be fraught with danger, however, so the next step was to build a permanent enclosure for them.

Step 3: Design

The materials list for the design:
  • Projector lens (US$3, second-hand)

  • Door peephole lens (US$6, new from the hardware store)

  • T-mount to EOS adapter (US$9 new from eBay, but you can use a drilled out body cap instead which would be ~US$4)

  • Soda can (US$1)

  • Packing foam (US$0)

  • Cardboard stopper rings (US$0)

  • Plumbing clip (US$0.5)
fisheye tin cam: materials and assembly diagram
The design centres around having two main components - a lower enclosure for holding the projector lens, and an upper slot for the fisheye lens.

In the design, the lens attaches to the camera using a T-mount to EOS adapter. It turns out that the adapter I was using had nearly exactly the same diameter as a soda can, so I decided to use that as my lens body. To hold the projector lens firmly in place in the can, I made use of two pieces of packing foam, cut into halves of a cylindrical tube that fit around the projector lens. Since the foam I was using is not completely opaque, I also inserted a cardboard ring cut into the shape of a donut at the base of the foam cylinder to stop light leaks.

A similar principle is used to fit the fisheye lens into the projector lens mouth. Foam discs that are a little larger than the diameter of the projector lens mouth are cut out; in the centre of this a hole is made so that the fisheye lens fits snugly inside them. Another cardboard stopper is placed at the base of the foam to stop light leaks.

Step 4: Building the tin cam

fisheye tin cam: assembly
Actual assembly

Assembly was pretty straightforward. The t-mount is inserted into the can first, and the stopper ring on top of it. The foam cylinder halves are inserted next. To keep things extra secure, a plumbing clip is wrapped around the mount end of the can. The projector lens was carefully inserted into the centre of the foam cylinder tube. The projector lens that I had has a screw-thread, so I was able easily twist it into place. This added an extra bonus - turning the projector lens unscrews it, allowing for racking the lens back and forth - which means that the lens can be adjusted for focus.

Most door fisheye lenses come in two parts - a lower part which goes into the back of the door, and an upper part which screws into it from the front side of the door. Separating the lens into these two halves, the cardboard stopper is slid it on to the lower half. The foam discs are slid on next, and then the top half of the fisheye is screwed back in. This whole assembly is snugly fitted into the mouth of the projector lens, and then the build is complete!

fisheye tin cam: final build
Final build

Even if your projector lens doesn't have a thread, you can still adjust the focus by turning the upper half of the fisheye lens - unscrewing it a little with lengthen the lens body, allowing you to finely focus it.

Step 5: Going nuts

fisheye tin cam: example results
woof!

The fisheye lens is ludicrously fun to shoot with. If you can, get in close to your subject - you'll be surprised how close you can get and still have your surroundings in the frame. Pets are always awesome for fisheye photos, especially if they're happy to stick their nose into the lens.

calibersf 0410 photowalk: mission buildings
Mission District

The lens combination makes saturated, contrasty pictures. As the results show, door fisheye lenses were never meant for even vaguely serious photography, and individual images don't stand up well to close inspection. In future revisions I think I might experiment with adding in an aperture to crank up the f-stop and perhaps reduce some of the sharpness and colour artefacts.

However, if you take a few of the fisheye pictures and arrange them into a grid, you can use them to tell a story or paint a picture of a place with a few images. In all of these shots I've cropped the images to squares, and then used a circle mask to get a clean circular crop around the edges of the pictures.

Potrero Hill Portraits
Potrero Hill Portraits

Go nuts with it, and get in close - I don't think you'll be disappointed :) You can find other fisheye tin-cam photos on flickr here.

f-f-f-f-fisheye
fffffff-isheye!


*I keep this site free-as-in-beer, but shopping on the photojojo site via this link contributes in a small way to my needless-optics-gear-fund and makes for a very happy photo nerd.

19 comments:

  1. I have made the peep hole attachment to my 18-55 before...
    But this seems much better!
    thanks for sharing!

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  2. I love this idea SOOOOO much. Thanks for the info!

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  3. Heyy,
    COOL idea!

    do you think we'd be able to get one attached to a point-and-shoot?

    AWESOME!

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  4. You stated that you didn't want to have optics between the peephole lens and the sensor, but then you used an old projector lens instead of the normal lens on your camera. I can appreciate your wishes to minimize the amount of glass between the actual fisheye element and the sensor, but I am not sure you gained anything by going with more foreign glass. I have an old peephole lens mounted in a screw-in lens cap that I throw on the front of my dslr, and I can still adjust exposure with both the aperture and shutter speed. I think it is a lot more rigid and less likely to fall out of alignment than your invention!

    ReplyDelete
  5. @yk - check out this:
    http://www.instructables.com/id/$11-Super-Wide-Angle-Digital-Camera/

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  6. @Brian: try as I might, I just wasn't able to get my peephole lens to make a good image at the sensor plane; plus I did state that I wanted to replace the complex in-between lens with a simple one, rather than eliminate an intermediate lens altogether.

    Plus, this way, the peephole image fills the entire frame. There are so many colour and distortion artifacts that it doesn't make that much of a practical difference, but I thought it was worth trying for :)

    Alignment has always been a big issue with most of my lens hacks - I'm refining my approach now so future builds should be a bit better :)

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  7. Anonymous9:39 am

    very cool.
    thanks for an excellent instruct on creating it.

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  8. Cool project, I'm thinking about doing a 360 panorama lens, inspired by the basic mirror concept of the Sony Bloggie pocketcams 360 panorama lens, but right now it is only on the drawingboard, could be cool I think, to take 360 panoramas with something like a Canon EOS cam.

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  9. I have not come across this idea before, but I might have an idea that will remove most of the glass possibly and lead to an easier make and possibly even better images?

    You can get peepholes that "project" the front image onto a small screen on the inside of the door. This is purely optical, no electronics involved.
    If you remove the screen and make your lens with the "projector" peephole at a fixed distance, surely you could just slip into macro mode and focus on the PRECISE image a lot more easily.

    This might give even beter results (although yours are already amazing) an easier make and a cost of perhaps $20-$25 though, depending on the best price you can get for the viewer.

    This is the sort of viewer I mean, it seems to be called "Super Wide Angle DoorViewer" such as this one on eBay UK:

    http://preview.tinyurl.com/27fu64w

    or this one from a company in the U.S. for $14.95:

    http://www.sportsimportsltd.com/doorpeepscop.html

    I have no connection with any of these, or the viewer, I just saw one in a catalogue once and thought it was cool, but never really had a use for one until now...

    Thanks for the brilliant idea!

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  10. I love this, and though a bit intimidated by all of the steps, I'm willing to give it a shot.

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  11. zscouras9:55 pm

    Is the lens you used a single element or multi?

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  12. @zscouras: the projector is a single element, but the fisheye lens for the door contains multiple elements.

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  13. incredible- so exciting! i just have to find the lenses and im set. thank you so much, great blog :)

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  14. Hello I'm confused, i have an Olympus e520, can i still make this attachment?

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  15. Anonymous2:46 pm

    yeah you can do that but you have to use Olympus adapter :-)

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  16. Anonymous2:52 pm

    I have a nikon D50, and i've been having some issues with getting the camera to allow me to take an actual picture with the lens. I used a rear lens cap as the base, and it's an F mount and everything... but the camera still flashes the "unrecognized lens" thaaang. is there any way i can fix this inside of my camera software so i don't have to buy an adapter?

    THANKYOUTHANKYOUTHANKYOU!

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  17. @Anonymous with the D50 - email me at bjoshi(at)gmail.com and lets see if I can help you get it working.

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  18. loved this tutourial. I only have a cheap digital camera which i think will work. i had tested it at the store holding against my camera lens and zooming to the max it could go and turned out quite good. It isnt as good as your examples as you are using an slr lens but for digital cameras it gives it a slight grainy lomo look.

    amy

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  19. Cool and amazing idea ;-)

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