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#1
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Reason for so many focus errors we see today?
RichA wrote:
Plastic? Thermal expansion of plastic is much greater than metal and it could very well be why we are seeing focus issues that need "lens re-calibration" at service depots or that we see the need for in- camera focus fine-tuning. Even cameras and lenses that appear to be metal today may have plastic cells holding lenses, components in cameras. The cameras are produced in a control temp environment but that isn't real life use where temps can vary by 10's of degrees. I don't remember all metal AF SLRs needing focus fine-tuning (or having that facility) in the film days. I can see that in open loop focusing, where you estimate the distance and dial that distance on lens. However, in any closed loop operation that source of error would not lead to a focus error. Also, there are a some plastics that have a thermal expansion less than many metals. So one cannot use generalities on this. |
#2
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Reason for so many focus errors we see today?
On Tue, 23 Jun 2009 08:56:14 -0500, Don Stauffer
wrote: RichA wrote: Plastic? Thermal expansion of plastic is much greater than metal and it could very well be why we are seeing focus issues that need "lens re-calibration" at service depots or that we see the need for in- camera focus fine-tuning. Even cameras and lenses that appear to be metal today may have plastic cells holding lenses, components in cameras. The cameras are produced in a control temp environment but that isn't real life use where temps can vary by 10's of degrees. I don't remember all metal AF SLRs needing focus fine-tuning (or having that facility) in the film days. I can see that in open loop focusing, where you estimate the distance and dial that distance on lens. However, in any closed loop operation that source of error would not lead to a focus error. Also, there are a some plastics that have a thermal expansion less than many metals. So one cannot use generalities on this. Focusing with a phase contrast system isn't closed loop with regard to the picture sensor, since it uses a separate, simple sensor array for focusing. Thus the focus system can get out of calibration. -- John |
#3
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Reason for so many focus errors we see today?
John O'Flaherty wrote:
Focusing with a phase contrast system isn't closed loop with regard to the picture sensor, since it uses a separate, simple sensor array for focusing. Thus the focus system can get out of calibration. (jargon as per http://en.wikipedia.org/wiki/Autofocus ) Interesting - since contrast measurement can be done in software, a camera with phase detection (which can, as you say, get out of calibration) could use contrast measurement to self-calibrate. BugBear |
#4
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Reason for so many focus errors we see today?
On Tue, 23 Jun 2009 16:20:03 +0100, bugbear
wrote: John O'Flaherty wrote: Focusing with a phase contrast system isn't closed loop with regard to the picture sensor, since it uses a separate, simple sensor array for focusing. Thus the focus system can get out of calibration. (jargon as per http://en.wikipedia.org/wiki/Autofocus ) Interesting - since contrast measurement can be done in software, a camera with phase detection (which can, as you say, get out of calibration) could use contrast measurement to self-calibrate. That sounds like a good idea - you'd just have to take a special shot of something with detail after each lens change. Also, I wonder if it would be possible to make a main sensor chip with special data paths to some small subset of the pixels, so they could be digitized really fast, doing phase contrast right there. But maybe that would be too hard to do on a uniform sensor with maximum pixel density. -- John |
#5
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Reason for so many focus errors we see today?
"John O'Flaherty" wrote in message ... On Tue, 23 Jun 2009 08:56:14 -0500, Don Stauffer wrote: Focusing with a phase contrast system isn't closed loop with regard to the picture sensor, since it uses a separate, simple sensor array for focusing. Thus the focus system can get out of calibration. Agreed about the separate sensor array. However, the phase system (at least on some cameras) seems to be a hybrid servo (open loop for fast response, then switches to closed loop for the final tweak ... that's where the hunting comes in). There was a protracted debate about this on one Canon forum and it never was resolved, since some of the information is proprietary. |
#6
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Reason for so many focus errors we see today?
In rec.photo.digital.slr-systems John O'Flaherty wrote:
On Tue, 23 Jun 2009 08:56:14 -0500, Don Stauffer wrote: RichA wrote: Plastic? Thermal expansion of plastic is much greater than metal and it could very well be why we are seeing focus issues that need "lens re-calibration" at service depots or that we see the need for in- camera focus fine-tuning. Even cameras and lenses that appear to be metal today may have plastic cells holding lenses, components in cameras. The cameras are produced in a control temp environment but that isn't real life use where temps can vary by 10's of degrees. I don't remember all metal AF SLRs needing focus fine-tuning (or having that facility) in the film days. I can see that in open loop focusing, where you estimate the distance and dial that distance on lens. However, in any closed loop operation that source of error would not lead to a focus error. Also, there are a some plastics that have a thermal expansion less than many metals. So one cannot use generalities on this. Focusing with a phase contrast system isn't closed loop with regard to the picture sensor, since it uses a separate, simple sensor array for focusing. Thus the focus system can get out of calibration. True, but thermal expansion in the lens *is* within the AF closed loop, so that particular problem won't give rise to focus errors in an AF system. -- Chris Malcolm |
#7
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Reason for so many focus errors we see today?
John O'Flaherty wrote:
On Tue, 23 Jun 2009 16:20:03 +0100, bugbear wrote: John O'Flaherty wrote: Focusing with a phase contrast system isn't closed loop with regard to the picture sensor, since it uses a separate, simple sensor array for focusing. Thus the focus system can get out of calibration. (jargon as per http://en.wikipedia.org/wiki/Autofocus ) Interesting - since contrast measurement can be done in software, a camera with phase detection (which can, as you say, get out of calibration) could use contrast measurement to self-calibrate. That sounds like a good idea - you'd just have to take a special shot of something with detail after each lens change. Also, I wonder if it would be possible to make a main sensor chip with special data paths to some small subset of the pixels, so they could be digitized really fast, doing phase contrast The article speaks of "phase detection" and "contrast measurement"; what do you mean by "phase contrast", which sounds like a mixture? BugBear |
#8
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Reason for so many focus errors we see today?
In rec.photo.digital.slr-systems John Navas wrote:
On 23 Jun 2009 20:38:58 GMT, Chris Malcolm wrote in : In rec.photo.digital.slr-systems John O'Flaherty wrote: Focusing with a phase contrast system isn't closed loop with regard to the picture sensor, since it uses a separate, simple sensor array for focusing. Thus the focus system can get out of calibration. True, but thermal expansion in the lens *is* within the AF closed loop, so that particular problem won't give rise to focus errors in an AF system. What closed loop? Many (most?) phase detection autofocus is open loop. Most is open loop with respect to focus on the image sensor, and closed loop for at least the final approach on the AF sensor. There's a lot of misunderstanding and misinformation on this topic. Try the experiment of locking focus with a half press on something near when a big slow focusing lens is at infinity. Then complete the press, and after the lens has started to move, but before it has stopped, remove the thing it's focussed on from the view of the AF sensor. If the lens runs past that point without stopping then it's a closed loop system whose terminating condition has not been found. If it's a predictive system it will stop focused on the distance the object was earlier found to be at, even though it's no longer there. -- Chris Malcolm |
#9
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Reason for so many focus errors we see today?
John Navas wrote:
Fast focusing inevitably involves some focus error, since it's predictive, and affected by lens errors. Please explain how lens errors are affecting focus detection in DSLRs, but not when using contrast detection. To fix that requires fine tuning, which can slow down focusing considerably. The reason more people don't notice is that it's lens sensitive, so focusing with a good lens, as in the case of most reviews, may still be fast. The issue doesn't exist for contrast detection, which is now fast enough for speed not to be an issue. Sure, and P&S cameras focus near instantly, too. Pull the other one. -Wolfgang |
#10
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Reason for so many focus errors we see today?
John O'Flaherty wrote:
On Tue, 23 Jun 2009 08:56:14 -0500, Don Stauffer wrote: RichA wrote: Plastic? Thermal expansion of plastic is much greater than metal and it could very well be why we are seeing focus issues that need "lens re-calibration" at service depots or that we see the need for in- camera focus fine-tuning. Even cameras and lenses that appear to be metal today may have plastic cells holding lenses, components in cameras. The cameras are produced in a control temp environment but that isn't real life use where temps can vary by 10's of degrees. I don't remember all metal AF SLRs needing focus fine-tuning (or having that facility) in the film days. I can see that in open loop focusing, where you estimate the distance and dial that distance on lens. However, in any closed loop operation that source of error would not lead to a focus error. Also, there are a some plastics that have a thermal expansion less than many metals. So one cannot use generalities on this. Focusing with a phase contrast system isn't closed loop with regard to the picture sensor, since it uses a separate, simple sensor array for focusing. Thus the focus system can get out of calibration. I was under the impression that the OP was talking about lens cell materials. The structure holding the image chip and the focusing chip is in the body of the camera, so a movement of something within the lens itself should affect both chips the same, shouldn't it? |
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