Archived posting to the Leica Users Group, 2007/03/19
[Author Prev] [Author Next] [Thread Prev] [Thread Next] [Author Index] [Topic Index] [Home] [Search]The view finder is parallax corrected. The range finder windows sit above the lens (when camera is horizontal) and never truly relate to the center of the lens except as to the relationship between the film plane (chip plane) and the plane of focus. Here's what Joe Englander had to say on Leica Camera User list: entire thread at <http://www.leica-camera-user.com/digital-forum/ 18053-testing-focusing-accuracy.html?highlight=focus+test> I haven't gone through all the posts about the M rangefinder and its lenses focusing inaccurately, but I have read enough of them-- especially regarding the 35/1.4 ASPH-- and of the techniques used to come to their author's conclusions, that I am motivated to point out what looks like specious technique. The conclusions and their explanations may be correct but since the method seems suspect, correct conclusions would be more by accident than accuracy. I am not saying that M lenses are not sometimes in need of adjustment, nor that M rangefinders do not go out of whack, nor that there are not focus shifts inherent in various designs, only that one of the most popular techniques for testing focusing accuracy is probably not appropriate. In order to test a precision apparatus, there ought to be an appropriate, precise and repeatable testing technique. Using a target stretching away from a tilted camera is not such a technique for rangefinder cameras, especially if you want to be precise. Such a method may be appropriate for testing focusing through the lens but the rangefinder itself is neither at the same height nor at the same position as the lens being tested. The finder window is above and to the side; this is obvious, but its importance for testing focus seems to be overlooked. Distances are calculated from the finder window and it is not centered above the lens. The M compensates framing for parallax but does not shift the focusing mechanics in the same way for closer subjects. If the camera is tilted 45 degrees toward a ruler, the rangefinder itself is now CLOSER by a measurable amount to the target than the center of the sensor. This difference in distance may be enough to influence any critical testing of focusing. The rangefinder cannot be accurate both for its position and for a position that is behind it, eg, the center of the sensor. When people complain about 10 or 20 mm of inaccuracy and I can see that the rangefinder of a titled camera is that much forward of the imaging plane, it seems likely that the angle and not the rangefinder is the problem. The same phenomenon would hold for tilting the target where one side of the target is closer to one side of the camera than the other: the viewing & range finding window is not the same distance from the target as the lens and the center of its sensor. The only technique I know that avoids this problem and that is available to users for testing the near-distance focusing accuracy of M lenses and rangefinders is to have a target that is absolutely parallel to the imaging plane, to focus on that target and then to change the distance between the target and the camera by small distances without changing the lens' focus. Evaluation of the accuracy of focus is based on comparison of the resulting images. The best method I have found for assuring absolute parallelism--and it must be absolute, not "sort of"--is to use two mirrors, one attached to the camera lens and one attached to the target, one of which has a hole in it for viewing (with rangefinders this one is on the target). While peering through the mirror attached to the target, the target is adjusted until an infinite reflection is seen in the tripod-mounted camera's mirror. Either the target or the camera can then be moved closer or farther. But since parallelism must be maintained, I have found that mounting the camera on a micrometer macro focusing rail is easiest. The camera is then moved back and forth in increments as small as you like. Your lens and camera may be best at a zero position or it may be better closer or farther from the target. There may be shifts of focus based on aperture or they may not be appreciable, after all. Ultimately, I have always been amazed at how accurate the Leica equipment is and how often I have found that any focusing inaccuracies were frequently due to operator error. When there have been inaccuracies, I have been much more confident of my conclusions using this technique because it is repeatable and the results are comparable. I can compare my results with others'; with the tilted camera method, that is unlikely and probably explains a lot of the variation in forum member's results. If I get different results at different times, the problem is most likely my technique similar to making pronouncements after miss-focusing in the field. If the best results are -10 mm on the first and subsequent iterations with one lens but 0 with another, I am certain the problem is the lens and can evaluate whether I think that at 1 meter I will ever be able to focus within that error while both my subject and I are breathing. Clearly, if it is -20mm with all lenses, there is a problem with the camera. I always hope to find it is my error because it is easier for me to correct my behavior than to send my equipment away. Joe -------------------------------- Regards, George Lottermoser george@imagist.com On Mar 19, 2007, at 12:05 PM, Carl Muckenhirn wrote: > Isn't the rangefinder supposed to indicate the "focus" point of the > lens? Isn't that why it is parallax corrected?