Archived posting to the Leica Users Group, 2003/09/02
[Author Prev] [Author Next] [Thread Prev] [Thread Next] [Author Index] [Topic Index] [Home] [Search]You remembered all that? You must not have been paying proper attention to the scotch! - ----- Original Message ----- From: <LRZeitlin@aol.com> To: <leica-users-digest@mejac.palo-alto.ca.us> Sent: Tuesday, September 02, 2003 3:42 PM Subject: [Leica] Still more digital Leica > I'm not an optoelectronic engineer but I did stay at a Holiday Inn last > night. > > Actually I didn't stay at the Holiday Inn but I had a couple of drinks at a > bar nearby with some friends who are real optical engineers from IBM's Yorktown > Heights Research Lab. We were lamenting the rain induced cancellation of the > Labor Day sailing regatta in the nearby Hudson River. After a couple of sips > of a scotch spelled without an L, I posed the digital Leica M question. > Specifically, could conventional lenses with a short back focus work with a full > sized CCD sensor. The answer was the same as suggested by the nay sayers on the > LUG - probably not. But - and there is always a "but" in discussions with > engineers - if enough time and money were made available, a digital Leica M could > be made to work. Here are a couple of the brainstorming suggestions that I > remember: > > Correction plate - a strong planoconcave correction plate in contact with the > full sized sensor might be the least expensive but it would require > considerable design work and would not perform optimally with all lenses. The grazing > angle of a 50 mm lens (back focus about 30 mm) is about 33 degrees at the > corners of the image frame. The Kodak KAI-110000 sensor requires an angle no > greater than 15 degrees. Thus the plate would have to deflect light to the vertical > by 18 to 20 degrees at the corners decreasing to zero degrees at the center. > For lenses shorter than 50 mm, the corner deflection angle would have to be > greater, longer lenses would require less deflection. A fixed correction plate > would work best for only one focal length. One suggestion was to supply > alternate plates for specific lens ranges, another was to use a single plate and > correct for light fall off by software, the frame actuator triggering the right > software mode. An alternative suggestion to the planoconcave correction plate was > a fresnel lens with groove artifacts removed by software. These guys work for > IBM, remember. After exposure correction for light falloff is an old and > venerable photographic technique. A rotating center stop was used for the Hypergon > wide angle lens and I used to use a graduated neutral density filter in the > filter carrier of my Bessler enlarger to counteract decreased edge illumination > with a Canon 19 mm lens. Software would be easier. > > Image compressors - If we are not wedded to the concept of a full sized CCD > and are willing to use a smaller sensor, albeit one with a high megapixel > count, the easiest approach would be to just use the center 1/2 to 2/3 of the > image. This is a no brainer optoelectrically. It just converts the Leica into a > Canon D10 without a reflex viewer. When I opined that many Leica users were wide > angle fanatics and would object to a change in apparent focal length of their > lenses, several suggestions for image compression that would give the full > field of view were offered. The first of these was a fiber optic corrector plate. > Imagine a fiber optic bundle the size of a 35 mm frame. Now heat and draw one > end of the bundle out until it is the size of a smaller CCD sensor and > optically fix it to the sensor. Any image formed on the large end will be reproduced > in smaller size at the smaller end where it is picked by the reduced size > sensor. The large end of the bundle could be ground to minimize grazing angle and > fall off effects and the result might be more even illumination than with > film. The fiber bundle could be bent around from the inspection port area to the > baseplate electronics bay. Artifacts and misplaced fibers would be rectified > by software. Marty Forscher used the fiber optic bundle technique in the very > first electronic cameras 30 years ago. > > Relay lens - The aerial image of any Leica lens could be picked up at the > film plane and directed by a relay lens to a sensor of any size. The optical > twists and turns this requires are best left to your imagination. > > Afocal lens attachments - A teleconverter type attachment inserted between > the prime lens and the camera body could be used to increase the back focus to > the point where a full sized sensor would be practical. Of course this would > increase the apparent focal length, so an afocal wide angle attachment on the > front of the lens could be used to decrease focal length to keep the status quo. > Whether this would still be a Leica lens is another story. > > Our booze induced conclusion is that a digital Leica COULD be made given > enough engineering talent and money. Whether Leica has enough of either is open to > question. But there is no doubt that a digital camera that uses Leica lenses > is within the realm of possibility. > > Larry Z > -- > To unsubscribe, see http://mejac.palo-alto.ca.us/leica-users/unsub.html - -- To unsubscribe, see http://mejac.palo-alto.ca.us/leica-users/unsub.html