Archived posting to the Leica Users Group, 2003/05/31
[Author Prev] [Author Next] [Thread Prev] [Thread Next] [Author Index] [Topic Index] [Home] [Search]Richard The worst disparity I have ever seen in this regard was in the Leica 125mm f2.5 Hektor, which was actually less than 120mm. This was done when reissuing a projector lens as a camera lens, to qualify at a lower customs import duty. I dunno! Jerry Richard Knoppow wrote: > ----- Original Message ----- > From: "keller.schaefer" <keller.schaefer@netcologne.de> > To: <rollei@mejac.palo-alto.ca.us> > Sent: Friday, May 30, 2003 11:27 PM > Subject: [Rollei] True focal length > > > Has anybody successfully tried to find out the true focal > length of a lens > > by measuring object size, object distance and image size > on the film and > > calculate from there? At first sight, even if I take into > account > > considerable misreading I would still arrive at the true > value plus or minus > > one millimeter. Am I missing something? I AM missing an > Autocollimator, > > obviously. > > > > I have some lenses where I doubt what the engraving says > is true. I always > > thought this would be marginal, but now I have a 85 mm > lens that is actually > > 'longer' than a 90... > > > > Sven > > > > > Yes, I've done this many tjmes. Not with terriffic > accuracy vbecause I don't have an optical bench. However, > you can ger reasonabble results ith a view camea. > There are two relations which can be used to measure the > focal length. One if the extension of the lens between focus > at infinity and at 1:1 magnification. thi is exactly one > focal length. At 1:1 magnification the distance between > image and object is exactly four times focal length. Getting > exact 1:1 requires some care. Perhaps the best method is to > draw a circle of a given diameter on a tranparent sheet, or > on the back of the ground glass. Use a circle of the same > diameter as the target. Its a little easier to see when the > image and guide are mismatched than it is with a linear > target, say a small ruler. Getting a 1:1 image for short > focal length lenses is more difficult than for lenses in the > range used on press and view camera. > Finding exact infinity focus is easy. The lens is > autocollimated by using a mirror. While a first surface > mirror is ideal a shaving or makeup mirror will work, > provided you make sure to use the plane side. The lens will > reflect a sharply focused image of a a target at the focal > plane back to the focal plane. For a view camera its > sufficient to hold a pencil flashlight with a pinhole over > it against the ground glass. A better target is a pencil > mark near the center of the ground glass illuminated with > the flashlight. One can also use a large white card with a > pinhole in it illuminated from the rear. The lens is mounted > so that you can move it around. The mirror placed over its > front and the lens set for best focus of the reflected image > of the pinhole as reflected on the card. > Actually, any ratio of magnifications can be used and the > focal length calculated from the relative focus > displacement. However, infinity and 1:1 are convenient and > result in the largest, hence easiest to measure, > displacement. > I think you could probably measure a 90mm lens within 1mm > this way but it would be tedious. I've mostly measured view > camera lenses. > If you need to know the principle points they are easy to > find once you have the focal length. By definition they are > one focal length from the image toward the lens. The > principle point of whichever side faces the image is the > rear or second principle point when the lens is used in that > position. When turned around it becomes the front or first > principle point. > Finding the principle points for telephoto and retrofocus > lenses is an intersting excercise. For some telephoto lenses > both principle points may be in space in front of the lens! > Finding the principle points will allow calculation of the > combined focal length of lenses since the d distance between > the lenses is the distance between the rear principle point > of the front lens and the front principle point of the rear > lens. If you are working with convertible lenses which don't > any longer have the charts showing combination FLs this > makes calculating them easy. > > --- > Richard Knoppow > Los Angeles, CA, USA > dickburk@ix.netcom.com - -- To unsubscribe, see http://mejac.palo-alto.ca.us/leica-users/unsub.html