Krutz
0
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- Nov 21, 2007
- Messages
- 1,733
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pretty basic question, it seems.
i have 11 lenses (9 to 22mm diameter), plano-convex (or slightly concave), convex-convex, convex-concave, concave-concave. pretty much any combination it seems. found in an old scope and an industrial securitycam. i want to try to build a beamexpander from two of them. surely i wont find a good combination, but who knows?
how do i find out the focal length?
- looking through it, when does a thin line drawn on paper appear sharp? thats quite unprecise!
- shining a laser through it? when is the dot the smallest? around the focal length, the dot is so small i cant see much difference any more. and if the initial beam isnt perfectly collimated it will add to the error further..
- shining a laser through, measuring the (greatly enlarged) dot after one meter. tried this with a greenie. the dot has no defined edge (tem0! doh!) to measure. the beam isnt all collimated, it is maybe 1mm at the aperture, 2mm after one meter.no way to measure the divergence precisely!
made a table, tried to calculate the focal length:
(focalpoint to wall) (focallength)
-------------------------- = -------------------
(projected dot) (initial beamdiameter)
would then be:
(beam diameter) * (focalpoint to wall)
focallength = ----------------------------------------------------------
(projected dot) + (laserbeam)
for example, "lens 3" projects a 35mm dot after one meter (total!) distance. laserbeam is 1mm at aperture, 2mm at the 1m target. with that formula it would be a focallength of 54,1mm:
2 * 1000 / 35 + 2 = 54,1
thats totally off.
half of it, 27mm, fits better. but shining a laser directly through it, it seems to be a focal length of around 20mm?
ah well, its all guessing here, and not knowing. any hints? how to measure, or at least how to calculate? ..and what about those negative lenses.. *sigh*
how common would be a focal length of, say, 23mm, or even 23,7mm? would i assume its 24mm, in that case?
thank you a lot!
manuel
edit:
..how i got to that formula? uhm.. i drew a diagram, measured all distances, thought about how to formulate it, and searched for causalities. on the paper it all worked out with that formula. more precise than i could verify with a ruler.
will draw and post the setup if its not clear?
i have 11 lenses (9 to 22mm diameter), plano-convex (or slightly concave), convex-convex, convex-concave, concave-concave. pretty much any combination it seems. found in an old scope and an industrial securitycam. i want to try to build a beamexpander from two of them. surely i wont find a good combination, but who knows?
how do i find out the focal length?
- looking through it, when does a thin line drawn on paper appear sharp? thats quite unprecise!
- shining a laser through it? when is the dot the smallest? around the focal length, the dot is so small i cant see much difference any more. and if the initial beam isnt perfectly collimated it will add to the error further..
- shining a laser through, measuring the (greatly enlarged) dot after one meter. tried this with a greenie. the dot has no defined edge (tem0! doh!) to measure. the beam isnt all collimated, it is maybe 1mm at the aperture, 2mm after one meter.no way to measure the divergence precisely!
made a table, tried to calculate the focal length:
(focalpoint to wall) (focallength)
-------------------------- = -------------------
(projected dot) (initial beamdiameter)
would then be:
(beam diameter) * (focalpoint to wall)
focallength = ----------------------------------------------------------
(projected dot) + (laserbeam)
for example, "lens 3" projects a 35mm dot after one meter (total!) distance. laserbeam is 1mm at aperture, 2mm at the 1m target. with that formula it would be a focallength of 54,1mm:
2 * 1000 / 35 + 2 = 54,1
thats totally off.
half of it, 27mm, fits better. but shining a laser directly through it, it seems to be a focal length of around 20mm?
ah well, its all guessing here, and not knowing. any hints? how to measure, or at least how to calculate? ..and what about those negative lenses.. *sigh*
how common would be a focal length of, say, 23mm, or even 23,7mm? would i assume its 24mm, in that case?
thank you a lot!
manuel
edit:
..how i got to that formula? uhm.. i drew a diagram, measured all distances, thought about how to formulate it, and searched for causalities. on the paper it all worked out with that formula. more precise than i could verify with a ruler.
will draw and post the setup if its not clear?
Last edited:
